Malaysia Covid19 Case Updates

Prepared By: Zahiruddin Zahidanishah

In [1]:
import pandas as pd
import numpy as np
import matplotlib.pyplot as plt
import plotly.graph_objects as go
import plotly.express as px
from plotly.subplots import make_subplots
import dataframe_image as dfi
import adjustText as aT
from jupyterthemes import jtplot
#import requests
import cufflinks as cf
#from bs4 import BeautifulSoup as bs
jtplot.style(theme='monokai', context='notebook', ticks=True, grid=False) 
import warnings
warnings.filterwarnings('ignore')
%matplotlib inline

from plotly.offline import download_plotlyjs, init_notebook_mode, plot, iplot 
init_notebook_mode(connected=True)
cf.go_offline()

from IPython.display import display_html
def display_side_by_side(*args):
    html_str=''
    for df in args:
        html_str+=df.to_html()
    display_html(html_str.replace('table','table style="display:inline"'),raw=True)
In [2]:
#Covid19 Malaysia States Dataset from MOH, Malaysia Github accounts 
df_states_cases = pd.read_csv('https://raw.githubusercontent.com/MoH-Malaysia/covid19-public/main/epidemic/cases_state.csv')
df_states_deaths = pd.read_csv('https://raw.githubusercontent.com/MoH-Malaysia/covid19-public/main/epidemic/deaths_state.csv')
df_states_hosp = pd.read_csv('https://raw.githubusercontent.com/MoH-Malaysia/covid19-public/main/epidemic/hospital.csv')
df_states_icu = pd.read_csv('https://raw.githubusercontent.com/MoH-Malaysia/covid19-public/main/epidemic/icu.csv')
df_states_pkrc = pd.read_csv('https://raw.githubusercontent.com/MoH-Malaysia/covid19-public/main/epidemic/pkrc.csv')
df_states_test = pd.read_csv('https://raw.githubusercontent.com/MoH-Malaysia/covid19-public/main/epidemic/tests_state.csv')
df_states_vaksin = pd.read_csv('https://raw.githubusercontent.com/CITF-Malaysia/citf-public/main/vaccination/vax_state.csv')
df_states_pop = pd.read_csv('https://raw.githubusercontent.com/MoH-Malaysia/covid19-public/main/static/population.csv')
In [3]:
df_hosp_daily = df_states_hosp.groupby('date').sum().reset_index()
df_hosp_daily['admitted_covid_cum'] = df_hosp_daily['admitted_covid'].cumsum()
df_hosp_daily['discharged_covid_cum'] = df_hosp_daily['discharged_covid'].cumsum()
df_icu_daily = df_states_icu.groupby('date').sum().reset_index()
df_icu_daily['icu_covid_cum'] = df_icu_daily['icu_covid'].cumsum()
df_pkrc_daily = df_states_pkrc.groupby('date').sum().reset_index()
df_pkrc_daily['admitted_covid_cum'] = df_pkrc_daily['admitted_covid'].cumsum()
df_pkrc_daily['discharged_covid_cum'] = df_pkrc_daily['discharged_covid'].cumsum()
In [4]:
#Selecting the required columns
df_states_cases = df_states_cases[['date','state','cases_new','cases_recovered','cases_pvax','cases_fvax']]
df_date_start = df_states_cases.head(1)
df_date_end = df_states_cases.tail(1)
df_states_deaths = df_states_deaths[['date','state','deaths_new_dod','deaths_bid_dod','deaths_pvax','deaths_fvax']]
df_states_hosp = df_states_hosp[['date','state','admitted_covid','discharged_covid']]
df_states_vaksin = df_states_vaksin[['date','state','daily_partial','daily_full','daily_booster','daily']]
df_states_pop = df_states_pop[['state','pop']]
In [5]:
#Grouping and summation the detasets based on states columns
df_cases = df_states_cases.groupby('state').sum()
df_deaths = df_states_deaths.groupby('state').sum()
df_hosp = df_states_hosp.groupby('state').sum()
df_vaksin = df_states_vaksin.groupby('state').sum()
In [6]:
#Dataset for overall Malaysia Covid19
df_mas_cases = pd.read_csv('https://raw.githubusercontent.com/MoH-Malaysia/covid19-public/main/epidemic/cases_malaysia.csv')
df_mas_deaths = pd.read_csv('https://raw.githubusercontent.com/MoH-Malaysia/covid19-public/main/epidemic/deaths_malaysia.csv')
df_mas_test = pd.read_csv('https://raw.githubusercontent.com/MoH-Malaysia/covid19-public/main/epidemic/tests_malaysia.csv')
df_mas_vaksin = pd.read_csv('https://raw.githubusercontent.com/CITF-Malaysia/citf-public/main/vaccination/vax_malaysia.csv')
df_mas_pop = pd.read_csv('https://raw.githubusercontent.com/MoH-Malaysia/covid19-public/main/static/population.csv')
df_mas_aefi = pd.read_csv('https://raw.githubusercontent.com/MoH-Malaysia/covid19-public/main/vaccination/aefi.csv')
In [7]:
df_mas_vaksin['Total Pfizer'] = df_mas_vaksin['pfizer1'] + df_mas_vaksin['pfizer2']
df_mas_vaksin['Total Sinovac'] = df_mas_vaksin['sinovac1'] + df_mas_vaksin['sinovac2']
df_mas_vaksin['Total AstraZ'] = df_mas_vaksin['astra1'] + df_mas_vaksin['astra2']
df_mas_vaksin['Cum. Daily'] = df_mas_vaksin['daily_full'].cumsum()
df_mas_vaksin['Population'] = df_states_pop.at[df_states_pop.index[0],'pop']
df_mas_vaksin['Vax. (%)'] = (df_mas_vaksin['Cum. Daily']/df_mas_vaksin['Population'])*100
In [8]:
df_mas_cases = df_mas_cases[['date','cases_new','cases_recovered','cases_pvax','cases_fvax','cases_active']]
df_mas_deaths = df_mas_deaths[['date','deaths_new_dod','deaths_bid_dod','deaths_pvax','deaths_fvax']]
df_mas_vaksin = df_mas_vaksin[['date', 'daily_partial', 'daily_full', 'daily_booster', 'daily', 'Total Pfizer',
                               'Total Sinovac', 'Total AstraZ', 'cansino', 'Cum. Daily', 'Vax. (%)']]
In [9]:
df_mas = pd.merge(df_mas_cases, df_mas_deaths, on='date')
In [10]:
df_mas = pd.merge(df_mas, df_mas_vaksin, on='date')
In [11]:
#Merging the datasets into one datasets
df_states = pd.merge(df_cases,df_deaths,on='state')
In [12]:
df_states = pd.merge(df_states,df_hosp,on='state')
In [13]:
df_states = pd.merge(df_states,df_vaksin,on='state')
In [14]:
df_states = pd.merge(df_states,df_states_pop,on='state')
In [15]:
#Creating main tables for presentation
df_states_table = df_states
df_states_table['deaths_vax_total'] = df_states_table['deaths_pvax'] + df_states_table['deaths_fvax']
df_states_table['cases_vax_total'] = df_states_table['cases_pvax'] + df_states_table['cases_fvax']

df_states_table = df_states_table[['state','cases_new','cases_recovered','cases_vax_total','deaths_new_dod',
                                  'deaths_bid_dod','deaths_vax_total','daily_partial','daily_full','daily',
                                   'daily_booster','pop']]

df_states_table.loc['Total'] = df_states_table.sum(numeric_only=True, axis=0)
df_states_table['state'] = df_states_table['state'].replace(np.nan, 'Malaysia')

df_states_table['Cases (%)'] = df_states_table['cases_new']/df_states_table['pop']*100
df_states_table['Cases Recovered (%)'] = df_states_table['cases_recovered']/df_states_table['cases_new']*100
df_states_table['Cases Vax. (%)'] = df_states_table['cases_vax_total']/df_states_table['cases_new']*100
df_states_table['Deaths (%)'] = df_states_table['deaths_new_dod']/df_states_table['cases_new']*100
df_states_table['Deaths Vax. (%)'] = df_states_table['deaths_vax_total']/df_states_table['deaths_new_dod']*100
df_states_table['Deaths BID (%)'] = df_states_table['deaths_bid_dod']/df_states_table['deaths_new_dod']*100
df_states_table['Vax. 3D (%)'] = df_states_table['daily_booster']/df_states_table['pop']*100
df_states_table['Vax. 2D (%)'] = df_states_table['daily_full']/df_states_table['pop']*100
df_states_table['Vax. 1D (%)'] = df_states_table['daily_partial']/df_states_table['pop']*100

df_states_table.rename(columns={'state':'States','cases_new':'Cases Positive','cases_recovered':'Cases Recovered',
                               'cases_vax_total':'Cases Vax.','deaths_new_dod':'Death Cases',
                               'deaths_bid_dod':'Death BID','deaths_vax_total':'Deaths Vax.',
                               },inplace=True)#'daily':'Total Vaccinated','pop':'Population'
In [16]:
print('Report Start Date :', df_date_start.at[df_date_start.index[0],'date'])
print('Report End Date   :', df_date_end.at[df_date_end.index[0],'date'])
Report Start Date : 2020-01-25
Report End Date   : 2022-03-22
In [17]:
df_mas_cases['total_vax'] = df_mas_cases['cases_pvax'] + df_mas_cases['cases_fvax']
df_mas_cases['cum_new'] = df_mas_cases['cases_new'].cumsum()
df_mas_cases['cum_recovered'] = df_mas_cases['cases_recovered'].cumsum()
df_mas_cases['cum_vax'] = df_mas_cases['total_vax'].cumsum()
df_mas_cases['active_cum'] = df_mas_cases['cases_active'].cumsum()

df_mas_deaths['total_vax'] = df_mas_deaths['deaths_pvax'] + df_mas_deaths['deaths_fvax']
df_mas_deaths['cum_deaths'] = df_mas_deaths['deaths_new_dod'].cumsum()
df_mas_deaths['cum_vax'] = df_mas_deaths['total_vax'].cumsum()
In [18]:
df_mas_monthly = df_mas_cases.append(df_mas_deaths)

def getYearMonth(s):
  return s.split("-")[1]+"-"+s.split("-")[0]
df_mas_monthly['YearMonth']= df_mas_monthly['date'].apply(lambda x: getYearMonth(x))

df_mas_monthly = df_mas_monthly.groupby('YearMonth').sum()
df_mas_monthly = df_mas_monthly.reset_index()
df_mas_monthly['vax_total_cases'] = df_mas_monthly['cases_fvax']+df_mas_monthly['cases_pvax']
df_mas_monthly['vax_total_deaths'] = df_mas_monthly['deaths_fvax']+df_mas_monthly['deaths_pvax']
In [19]:
df_mas_yearly = df_mas_cases.append(df_mas_deaths)

def getYear(s):
  return s.split("-")[0]

def getMonth(s):
  return s.split("-")[1]

df_mas_yearly['Year']= df_mas_yearly['date'].apply(lambda x: getYear(x))
df_mas_yearly['Month']= df_mas_yearly['date'].apply(lambda x: getMonth(x))

df_mas_yearly = df_mas_yearly.groupby('Year').sum().reset_index()
df_mas_yearly['vax_total_cases'] = df_mas_yearly['cases_fvax']+df_mas_yearly['cases_pvax']
df_mas_yearly['vax_total_deaths'] = df_mas_yearly['deaths_fvax']+df_mas_yearly['deaths_pvax']
In [20]:
fig = make_subplots(rows=1, cols=2, shared_xaxes=True, vertical_spacing=0.08,
                   subplot_titles=('<b>Yearly Total Covid19 Cases & Recovered</b>',
                                   '<b>Monthly Total Covid19 Cases & Recovered</b>'))
#Graph 1
fig.append_trace(go.Bar(x = df_mas_yearly['Year'], y = df_mas_yearly['cases_new'],
                        name='Cases Positive',marker_color='indianred'),row=1, col=1)
fig.append_trace(go.Bar(x = df_mas_yearly['Year'], y = df_mas_yearly['cases_recovered'],
                        name='Cases Recovered',marker_color='lightsalmon'),row=1, col=1)
#Graph 2
fig.append_trace(go.Bar(x = df_mas_monthly['YearMonth'], y = df_mas_monthly['cases_new'],
                        name='Cases Positive',marker_color='indianred'),row=1, col=2)
fig.append_trace(go.Bar(x = df_mas_monthly['YearMonth'], y = df_mas_monthly['cases_recovered'],
                        name='Cases Recovered',marker_color='lightsalmon'),row=1, col=2)

#Update Fonts & Size
fig.update_annotations(font=dict(family="Helvetica", size=11))
fig.update_layout(font=dict(family="Helvetica", size=11))
fig.update_layout(height=400,showlegend=False)
#fig.update_layout(height=400,showlegend=False,title_text='Yearly and Monthly Total New And Recovered Cases', title_x=0.5)
fig.update_xaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
fig.update_yaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')

#Plotting the graph
fig.show()
In [21]:
fig = make_subplots(shared_xaxes=True, specs=[[{'secondary_y': True}]])

#Graph 1
fig.add_trace(go.Scatter(x = df_mas_cases['date'], y = df_mas_cases['cases_new'], name ='Positive Cases', 
               line = dict(color='blue', width=1)), secondary_y=True, row=1, col=1)
fig.add_trace(go.Scatter(x = df_mas_cases['date'], y = df_mas_cases['cases_recovered'], name = 'Recovered Cases',
               line = dict(color='red', width=1)), secondary_y=True, row=1, col=1)
fig.add_trace(go.Scatter(x = df_mas_cases['date'], y = df_mas_cases['total_vax'], name = 'Vax. Cases',
               line = dict(color='green', width=1)), secondary_y=True, row=1, col=1)
fig.add_trace(go.Scatter(x = df_mas_cases['date'], y = df_mas_cases['cum_new'], name ='Cumulative Cases', 
               line = dict(color='blue', width=1)), secondary_y=False, row=1, col=1)
fig.add_trace(go.Scatter(x = df_mas_cases['date'], y = df_mas_cases['cum_recovered'], name = 'Cumulative Recovered',
               line = dict(color='red', width=1)), secondary_y=False, row=1, col=1)
fig.add_trace(go.Scatter(x = df_mas_cases['date'], y = df_mas_cases['cum_vax'], name = 'Cumulative Vax.',
               line = dict(color='green', width=1)), secondary_y=False, row=1, col=1)

fig.update_layout(title_text='Malaysia Covid19 New And Recovered Cases', title_x=0.5, showlegend=False,
                 height=600)
fig.update_xaxes(title_text='')
fig.update_annotations(font=dict(family="Helvetica", size=12))
fig.update_layout(font=dict(family="Helvetica", size=14))
fig.update_xaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
fig.update_yaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot", 
              x0='2021-10-11', x1='2021-10-11',  y0=0, y1=1000000)
fig.add_annotation(text='90% Vax.', x='2021-10-11', y=1000000, arrowhead=3, align='center', 
                   arrowsize=1, arrowwidth=2, arrowcolor="#636363",xref='x', ax=50, ay=-90, showarrow=True, 
                   xanchor="left", yanchor="bottom")
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot", 
              x0='2020-09-26', x1='2020-09-26',  y0=0, y1=500000)
fig.add_annotation(text='PRN Sabah', x='2020-09-26', y=500000, arrowhead=3, align='center', 
                   arrowsize=1, arrowwidth=2, arrowcolor="#636363",xref='x', ax=50, ay=-30, showarrow=True, 
                   xanchor="left", yanchor="bottom")
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot", 
              x0='2021-11-20', x1='2021-11-20',  y0=0, y1=500000)
fig.add_annotation(text='PRN Melaka', x='2021-11-20', y=500000, arrowhead=3, align='center', 
                   arrowsize=1, arrowwidth=2, arrowcolor="#636363",xref='x', ax=50, ay=-30, showarrow=True, 
                   xanchor="left", yanchor="bottom")
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot", 
              x0='2021-12-06', x1='2021-12-06',  y0=0, y1=400000)
fig.add_annotation(text='PRN Sarawak', x='2021-12-06', y=400000, arrowhead=3, align='center', 
                   arrowsize=1, arrowwidth=2, arrowcolor="#636363",xref='x', ax=50, ay=-30, showarrow=True, 
                   xanchor="left", yanchor="bottom")
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot", 
              x0='2021-01-12', x1='2021-01-12',  y0=0, y1=600000)
fig.add_annotation(text='Darurat Mula', x='2021-01-12', y=600000, arrowhead=3, align='center', 
                   arrowsize=1, arrowwidth=2, arrowcolor="#636363",xref='x', ax=50, ay=-30, showarrow=True, 
                   xanchor="left", yanchor="bottom")
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot", 
              x0='2021-08-01', x1='2021-08-01',  y0=0, y1=1100000)
fig.add_annotation(text='Darurat Tamat', x='2021-08-01', y=1100000, arrowhead=3, align='center', 
                   arrowsize=1, arrowwidth=2, arrowcolor="#636363",xref='x', ax=50, ay=-30, showarrow=True, 
                   xanchor="left", yanchor="bottom")
fig.show()
In [22]:
df_2020 = df_mas_cases.query("date >= '2020-01-01' \
                            and date <= '2020-12-31'")
df_2021 = df_mas_cases.query("date >= '2021-01-01' \
                            and date <= '2021-12-31'")
df_2022 = df_mas_cases.query("date >= '2022-01-01' \
                            and date <= '2022-12-31'")
In [23]:
df_2020['cum_2020'] = df_2020['cases_new'].cumsum()
df_2021['cum_2021'] = df_2021['cases_new'].cumsum()
df_2022['cum_2022'] = df_2022['cases_new'].cumsum()
In [24]:
fig = make_subplots(rows=1, cols=3, specs=[[{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}]],
                    
subplot_titles=('<b>Year 2020</b>',
                '<b>Year 2021</b>',
                '<b>Year 2022</b>'))

fig.add_trace(go.Scatter(x = df_2020['date'], y = df_2020['cases_new'], name = 'Daily Cases',
               line = dict(color='green', width=1)), secondary_y=False, row=1, col=1)
fig.add_trace(go.Scatter(x = df_2020['date'], y = df_2020['cum_2020'], name = 'Cumulative Cases',
               line = dict(color='green', width=1.5)), secondary_y=True, row=1, col=1)
fig.add_trace(go.Scatter(x = df_2020['date'], y = df_2020['cases_active'], name = 'Active Cases',
               line = dict(color='green', width=1.5)), secondary_y=True, row=1, col=1)

fig.add_trace(go.Scatter(x = df_2021['date'], y = df_2021['cases_new'], name = 'Cases Daily',
               line = dict(color='blue', width=1)), secondary_y=False, row=1, col=2)
fig.add_trace(go.Scatter(x = df_2021['date'], y = df_2021['cum_2021'], name = 'Cases',
               line = dict(color='blue', width=1.5)), secondary_y=True, row=1, col=2)
fig.add_trace(go.Scatter(x = df_2021['date'], y = df_2021['cases_active'], name = 'Active Cases',
               line = dict(color='blue', width=1.5)), secondary_y=True, row=1, col=2)

fig.add_trace(go.Scatter(x = df_2022['date'], y = df_2022['cases_new'], name = 'Daily Cases',
               line = dict(color='red', width=1)), secondary_y=False, row=1, col=3)
fig.add_trace(go.Scatter(x = df_2022['date'], y = df_2022['cum_2022'], name = 'Cumulative Cases',
               line = dict(color='red', width=1.5)), secondary_y=True, row=1, col=3)
fig.add_trace(go.Scatter(x = df_2022['date'], y = df_2022['cases_active'], name = 'Active Cases',
               line = dict(color='red', width=1.5)), secondary_y=True, row=1, col=3)

fig.update_layout(title_text='Malaysia Covid19 Cases By Year', title_x=0.5, showlegend=False,
                 height=350)
fig.update_xaxes(title_text='')
#Update Fonts & Size
fig.update_annotations(font=dict(family="Helvetica", size=11))
fig.update_layout(font=dict(family="Helvetica", size=11))
fig.update_layout(height=350,showlegend=False)
fig.update_xaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
fig.update_yaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')

#Plotting the graph
fig.show()
In [25]:
#Creating the main key points from the datasets
print('Key Points Highlights:-')
print('-----------------------------------------------------------------')
print('1. Total Positive Cases                  :','{0:,.0f}'.format(df_states_table.at[df_states_table.index[16],'Cases Positive']),'/','{0:.1f}'.format(df_states_table.at[df_states_table.index[16],'Cases (%)']),'%')
print('2. Total Positive Cases After Vaccinated :','{0:,.0f}'.format(df_states_table.at[df_states_table.index[16],'Cases Vax.']),'/','{0:.1f}'.format(df_states_table.at[df_states_table.index[16],'Cases Vax. (%)']),'%')
print('3. Total Recovered Cases                 :','{0:,.0f}'.format(df_states_table.at[df_states_table.index[16],'Cases Recovered']),'/','{0:.1f}'.format(df_states_table.at[df_states_table.index[16],'Cases Recovered (%)']),'%')
print('4. Total Death Cases                     :','{0:,.0f}'.format(df_states_table.at[df_states_table.index[16],'Death Cases']),'/','{0:.1f}'.format(df_states_table.at[df_states_table.index[16],'Deaths (%)']),'%')
print('5. Total Death Cases After Vaccinated    :','{0:,.0f}'.format(df_states_table.at[df_states_table.index[16],'Deaths Vax.']),'/','{0:.1f}'.format(df_states_table.at[df_states_table.index[16],'Deaths Vax. (%)']),'%')
print('6. Total 1 Dose Vaccinated               :','{0:,.0f}'.format(df_states_table.at[df_states_table.index[16],'daily_partial']),'/','{0:.1f}'.format(df_states_table.at[df_states_table.index[16],'Vax. 1D (%)']),'%')
print('7. Total 2 Dose Vaccinated               :','{0:,.0f}'.format(df_states_table.at[df_states_table.index[16],'daily_full']),'/','{0:.1f}'.format(df_states_table.at[df_states_table.index[16],'Vax. 2D (%)']),'%')
print('8. Total 3 Dose Vaccinated               :','{0:,.0f}'.format(df_states_table.at[df_states_table.index[16],'daily_booster']),'/','{0:.1f}'.format(df_states_table.at[df_states_table.index[16],'Vax. 3D (%)']),'%')
print('-----------------------------------------------------------------')
Key Points Highlights:-
-----------------------------------------------------------------
1. Total Positive Cases                  : 4,032,435 / 12.3 %
2. Total Positive Cases After Vaccinated : 1,576,725 / 39.1 %
3. Total Recovered Cases                 : 3,745,229 / 92.9 %
4. Total Death Cases                     : 34,534 / 0.9 %
5. Total Death Cases After Vaccinated    : 12,329 / 35.7 %
6. Total 1 Dose Vaccinated               : 27,225,551 / 83.4 %
7. Total 2 Dose Vaccinated               : 25,790,516 / 79.0 %
8. Total 3 Dose Vaccinated               : 15,530,830 / 47.6 %
-----------------------------------------------------------------
In [26]:
df_states_table.drop(['daily_partial','daily_full','pop','daily','daily_booster'],axis='columns',inplace=True)
In [27]:
df_states_table.drop(['Cases Vax.','Death BID','Deaths Vax.'],axis='columns',inplace=True)

df_states_table.style.set_caption("Malaysia Details Of Covid19 Cases At Each States").set_table_styles([{
    'selector': 'caption',
    'props': [
        ('color', 'black'),
        ('font-size', '26px'),
        ("text-align", "center"),
        ('text-decoration', 'underline'),
        ('font-family','Arial'),
        ('text-shadow', '2px 2px 5px grey')
    ]},(dict
        (selector='th',props=[('text-align',
                               'left')]))]).format(
    {'Cases Positive':'{:,.0f}','Cases Recovered':'{:,.0f}','Cases Vax.':'{:,.0f}','Death Cases':'{:,.0f}',
     'Deaths (%)':'{:,.1f}','Deaths BID':'{:,.0f}','Deaths Vax.':'{:,.0f}','Cases (%)':'{:,.1f}',
     'Cases Recovered (%)':'{:,.1f}','Cases Vax. (%)':'{:,.1f}','Vax. 2D (%)':'{:,.1f}','Vax. 1D (%)':'{:,.1f}',
     'Deaths Vax. (%)':'{:,.1f}','Deaths BID (%)':'{:,.1f}','Vax. 3D (%)':'{:,.1f}'}
).set_properties(subset=['States'],**{'text-align': 'left'}).apply(
    lambda x: ['background: salmon' if x.name in ['Total'] else '' for i in x], axis=1).hide_index()
Out[27]:
Malaysia Details Of Covid19 Cases At Each States
States Cases Positive Cases Recovered Death Cases Cases (%) Cases Recovered (%) Cases Vax. (%) Deaths (%) Deaths Vax. (%) Deaths BID (%) Vax. 3D (%) Vax. 2D (%) Vax. 1D (%)
Johor 364,388 344,281 4,361 9.6 94.5 37.3 1.2 39.2 13.4 54.1 80.8 86.1
Kedah 284,193 262,771 2,510 13.0 92.5 40.9 0.9 35.7 17.1 32.4 72.1 75.1
Kelantan 241,778 232,817 1,397 12.5 96.3 46.5 0.6 35.7 27.2 16.1 61.3 63.4
Melaka 112,449 101,244 1,066 12.0 90.0 36.4 0.9 38.1 14.0 56.3 76.8 82.1
Negeri Sembilan 181,326 164,252 1,425 16.1 90.6 31.3 0.8 30.2 12.4 56.6 84.5 89.2
Pahang 160,716 148,259 919 9.5 92.2 42.4 0.6 36.5 13.7 35.3 70.1 73.5
Perak 180,980 166,444 1,758 7.2 92.0 39.3 1.0 44.8 15.0 44.5 74.4 78.3
Perlis 16,145 14,538 171 6.3 90.0 57.9 1.1 46.2 4.7 29.7 80.3 83.7
Pulau Pinang 258,643 244,435 1,918 14.6 94.5 41.9 0.7 40.4 21.4 58.4 86.3 90.7
Sabah 364,727 339,480 3,097 9.5 93.1 41.2 0.8 25.5 40.6 22.3 62.8 63.2
Sarawak 290,207 275,059 1,663 10.3 94.8 49.6 0.6 48.5 21.3 54.6 75.8 84.5
Selangor 1,108,304 1,024,145 10,457 16.9 92.4 35.7 0.9 33.1 21.6 59.7 73.3 77.8
Terengganu 117,789 110,018 832 9.2 93.4 45.5 0.7 43.0 12.6 26.4 69.3 71.5
W.P. Kuala Lumpur 313,100 282,072 2,775 17.9 90.1 32.6 0.9 34.8 26.0 97.0 173.9 183.8
W.P. Labuan 20,334 19,722 153 20.3 97.0 24.3 0.8 9.8 28.8 47.4 79.9 87.6
W.P. Putrajaya 17,356 15,692 32 14.9 90.4 40.9 0.2 40.6 3.1 68.4 127.3 137.0
Malaysia 4,032,435 3,745,229 34,534 12.3 92.9 39.1 0.9 35.7 21.0 47.6 79.0 83.4
In [28]:
df_states_graph = df_states
df_states_graph['vaksin_percentage_partial'] = df_states_graph['daily_partial']/df_states_graph['pop']*100
df_states_graph['vaksin_percentage_full'] = df_states_graph['daily_full']/df_states_graph['pop']*100
df_states_graph['deaths_vax_total'] = df_states_graph['deaths_pvax'] + df_states_graph['deaths_fvax']
df_states_graph['cases_vax_total'] = df_states_graph['cases_pvax'] + df_states_graph['cases_fvax']
In [29]:
df_mas_deaths['deaths_vax_total'] = df_mas_deaths['deaths_pvax'] + df_mas_deaths['deaths_fvax']
df_mas['deaths_vax_total'] = df_mas['deaths_pvax'] + df_mas['deaths_fvax']
df_mas_test['total_test'] = df_mas_test['rtk-ag'] + df_mas_test['pcr']
df_mas_test['cum_total'] = df_mas_test['total_test'].cumsum()
In [30]:
df_mas_new = df_mas[['date','cases_new','deaths_new_dod']]
df_mas_new['cases_new_7'] = df_mas_new['cases_new'].shift(7)
df_mas_new['cases_new_14'] = df_mas_new['cases_new'].shift(14)
df_mas_new['cases_new_21'] = df_mas_new['cases_new'].shift(21)
df_mas_new['deaths_new_7'] = df_mas_new['deaths_new_dod'].shift(7)
df_mas_new['deaths_new_14'] = df_mas_new['deaths_new_dod'].shift(14)
df_mas_new['deaths_new_21'] = df_mas_new['deaths_new_dod'].shift(21)
df_mas_new = df_mas_new.tail(7)
df_mas_new['cum_new'] = df_mas_new['cases_new'].cumsum()
df_mas_new['cum_new_7'] = df_mas_new['cases_new_7'].cumsum()
df_mas_new['cum_new_14'] = df_mas_new['cases_new_14'].cumsum()
df_mas_new['cum_new_21'] = df_mas_new['cases_new_21'].cumsum()
df_mas_new['cum_deaths_new'] = df_mas_new['deaths_new_dod'].cumsum()
df_mas_new['cum_deaths_7'] = df_mas_new['deaths_new_7'].cumsum()
df_mas_new['cum_deaths_14'] = df_mas_new['deaths_new_14'].cumsum()
df_mas_new['cum_deaths_21'] = df_mas_new['deaths_new_21'].cumsum()
In [31]:
print('Four Weeks Cumulative Daily Cases Comparison Analysis:-')
print('--------------------------------------------')
print('Average Week 1: ', '{0:,.0f}'.format(df_mas_new['cum_new'].mean()), '(', '{0:,.0f}'.format(df_mas_new['cum_new'].mean()-df_mas_new['cum_new_7'].mean()),'diff.)')
print('Average Week 2: ', '{0:,.0f}'.format(df_mas_new['cum_new_7'].mean()), '(', '{0:,.0f}'.format(df_mas_new['cum_new_7'].mean()-df_mas_new['cum_new_14'].mean()),'diff.)')
print('Average Week 3: ', '{0:,.0f}'.format(df_mas_new['cum_new_14'].mean()), '(', '{0:,.0f}'.format(df_mas_new['cum_new_14'].mean()-df_mas_new['cum_new_21'].mean()),'diff.)')
print('Average Week 4: ', '{0:,.0f}'.format(df_mas_new['cum_new_21'].mean()), '-')
print('--------------------------------------------')
print('Four Weeks Daily Cases Comparison Analysis:-')
print('--------------------------------------------')
print('Average Week 1:', '{0:,.0f}'.format(df_mas_new['cases_new'].mean()), '(', '{0:,.0f}'.format(df_mas_new['cases_new'].mean()-df_mas_new['cases_new_7'].mean()),'diff.)')
print('Average Week 2:', '{0:,.0f}'.format(df_mas_new['cases_new_7'].mean()), '(', '{0:,.0f}'.format(df_mas_new['cases_new_7'].mean()-df_mas_new['cases_new_14'].mean()),'diff.)')
print('Average Week 3:', '{0:,.0f}'.format(df_mas_new['cases_new_14'].mean()), '(', '{0:,.0f}'.format(df_mas_new['cases_new_14'].mean()-df_mas_new['cases_new_21'].mean()),'diff.)')
print('Average Week 4:', '{0:,.0f}'.format(df_mas_new['cases_new_21'].mean()), '-')
print('--------------------------------------------')
Four Weeks Cumulative Daily Cases Comparison Analysis:-
--------------------------------------------
Average Week 1:  97,876 ( -16,930 diff.)
Average Week 2:  114,806 ( -7,262 diff.)
Average Week 3:  122,068 ( 5,114 diff.)
Average Week 4:  116,954 -
--------------------------------------------
Four Weeks Daily Cases Comparison Analysis:-
--------------------------------------------
Average Week 1: 22,900 ( -4,412 diff.)
Average Week 2: 27,312 ( -3,026 diff.)
Average Week 3: 30,338 ( 2,533 diff.)
Average Week 4: 27,805 -
--------------------------------------------
In [32]:
fig = make_subplots(rows=1, cols=4, shared_xaxes=True, vertical_spacing=0.08,
                   subplot_titles=('<b>New Confirmed Cases Daily</b>',
                                   '<b>New Confirmed Cases Cumulative</b>',
                                   '<b>New Deaths Cases Daily</b>',
                                   '<b>New Deaths Cases Cumulative</b>'))
#Graph 1
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['cases_new'],name='Week 1', mode="lines",
                           line = dict(color='red',width=0.5)),row=1, col=1)
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['cases_new_7'],name='Week 2', mode="lines",
                           line = dict(color='blue',width=0.5)),row=1, col=1)
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['cases_new_14'],name='Week 3', mode="lines",
                           line = dict(color='green',width=0.5)),row=1, col=1)
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['cases_new_21'],name='Week 4', mode="lines",
                           line = dict(color='purple',width=0.5)),row=1, col=1)
fig.add_hline(y=df_mas_new['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Ave. Week 1", annotation_position="bottom left",row=1, col=1)
fig.add_hline(y=df_mas_new['cases_new_7'].mean(), line_dash="dot",line_color="blue",
              annotation_text="Ave. Week 2", annotation_position="bottom right",row=1, col=1)
fig.add_hline(y=df_mas_new['cases_new_14'].mean(), line_dash="dot",line_color="green",
              annotation_text="Ave. Week 3", annotation_position="bottom left",row=1, col=1)
fig.add_hline(y=df_mas_new['cases_new_21'].mean(), line_dash="dot",line_color="purple",
              annotation_text="Ave. Week 4", annotation_position="bottom right",row=1, col=1)
#Graph 2
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['cum_new'],name='Week 1', mode="lines",
                           line = dict(color='red',width=0.5)),row=1, col=2)
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['cum_new_7'],name='Week 2', mode="lines",
                           line = dict(color='blue',width=0.5)),row=1, col=2)
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['cum_new_14'],name='Week 3', mode="lines",
                           line = dict(color='green',width=0.5)),row=1, col=2)
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['cum_new_21'],name='Week 4', mode="lines",
                           line = dict(color='purple',width=0.5)),row=1, col=2)
fig.add_hline(y=df_mas_new['cum_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Ave. Week 1", annotation_position="bottom left",row=1, col=2)
fig.add_hline(y=df_mas_new['cum_new_7'].mean(), line_dash="dot",line_color="blue",
              annotation_text="Ave. Week 2", annotation_position="bottom right",row=1, col=2)
fig.add_hline(y=df_mas_new['cum_new_14'].mean(), line_dash="dot",line_color="green",
              annotation_text="Ave. Week 3", annotation_position="top left",row=1, col=2)
fig.add_hline(y=df_mas_new['cum_new_21'].mean(), line_dash="dot",line_color="purple",
              annotation_text="Ave. Week 4", annotation_position="bottom right",row=1, col=2)
#Graph 3
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['deaths_new_dod'],name='Week 1', mode="lines",
                           line = dict(color='red', width=0.5)),row=1, col=3)
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['deaths_new_7'],name='Week 2', mode="lines",
                           line = dict(color='blue', width=0.5)),row=1, col=3)
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['deaths_new_14'],name='Week 3', mode="lines",
                           line = dict(color='green', width=0.5)),row=1, col=3)
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['deaths_new_21'],name='Week 4', mode="lines",
                           line = dict(color='purple', width=0.5)),row=1, col=3)
fig.add_hline(y=df_mas_new['deaths_new_dod'].mean(), line_dash="dot",line_color="red",
              annotation_text="Ave. Week 1", annotation_position="bottom left",row=1, col=3)
fig.add_hline(y=df_mas_new['deaths_new_7'].mean(), line_dash="dot",line_color="blue",
              annotation_text="Ave. Week 2", annotation_position="bottom right",row=1, col=3)
fig.add_hline(y=df_mas_new['deaths_new_14'].mean(), line_dash="dot",line_color="green",
              annotation_text="Ave. Week 3", annotation_position="bottom left",row=1, col=3)
fig.add_hline(y=df_mas_new['deaths_new_21'].mean(), line_dash="dot",line_color="purple",
              annotation_text="Ave. Week 4", annotation_position="bottom right",row=1, col=3)
#Graph 4
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['cum_deaths_new'],name='Week 1', mode="lines",
                           line = dict(color='red', width=0.5)),row=1, col=4)
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['cum_deaths_7'],name='Week 2', mode="lines",
                           line = dict(color='blue', width=0.5)),row=1, col=4)
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['cum_deaths_14'],name='Week 3', mode="lines",
                           line = dict(color='green', width=0.5)),row=1, col=4)
fig.append_trace(go.Scatter(x = df_mas_new['date'], y = df_mas_new['cum_deaths_21'],name='Week 4', mode="lines",
                           line = dict(color='purple', width=0.5)),row=1, col=4)
fig.add_hline(y=df_mas_new['cum_deaths_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Ave. Week 1", annotation_position="bottom left",row=1, col=4)
fig.add_hline(y=df_mas_new['cum_deaths_7'].mean(), line_dash="dot",line_color="blue",
              annotation_text="Ave. Week 2", annotation_position="bottom right",row=1, col=4)
fig.add_hline(y=df_mas_new['cum_deaths_14'].mean(), line_dash="dot",line_color="green",
              annotation_text="Ave. Week 3", annotation_position="bottom left",row=1, col=4)
fig.add_hline(y=df_mas_new['cum_deaths_21'].mean(), line_dash="dot",line_color="purple",
              annotation_text="Ave. Week 4", annotation_position="top right",row=1, col=4)
#Update Fonts & Size
fig.update_annotations(font=dict(family="Helvetica", size=11))
fig.update_layout(font=dict(family="Helvetica", size=11))
fig.update_layout(height=400,showlegend=False,title_text="Malaysia Covid19 Latest Cases In Details (4 Week Comparison)", title_x=0.5)
fig.update_xaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black',
                visible=True, showticklabels=False)
fig.update_yaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
#Plotting the graph
fig.show()
In [33]:
df_mas_cases['cum_new'] = df_mas_cases['cases_new'].cumsum()
df_mas_cases['cum_recovered'] = df_mas_cases['cases_recovered'].cumsum()
df_mas_deaths['cum_deaths'] = df_mas_deaths['deaths_new_dod'].cumsum()
df_mas_deaths['cum_deaths_vax'] = df_mas_deaths['deaths_vax_total'].cumsum()
In [34]:
fig = make_subplots(rows=2, cols=4, shared_xaxes=True, vertical_spacing=0.08,
                    specs=[[{'secondary_y': True}, {'secondary_y': True}, {'secondary_y': True}, {'secondary_y': True}], 
                           [{'secondary_y': True}, {'secondary_y': True}, {'secondary_y': True}, {'secondary_y': True}]],

subplot_titles=('<b>Cases: Total VS Recover</b>',
                '<b>ICU Daily Admitted</b>',
                '<b>Hosp.: Admit VS Discharge</b>',
                '<b>PKRC: Admitted VS Discharged</b>',
                '<b>Deaths: Total, BID & Vax.</b>',
                '<b>Total Daily Covid19 Test</b>',
                '<b>States Hosp. Admission & Discharge</b>',
                '<b>States Vax. (%): 1D VS 2D</b>'))

#Graph 1
fig.add_trace(go.Scatter(x = df_mas_cases['date'], y = df_mas_cases['cases_new'], name='Positive Cases',
                           line = dict(color='red',width=0.5)), row=1, col=1, secondary_y=True)
fig.add_trace(go.Scatter(x = df_mas_cases['date'], y = df_mas_cases['cum_new'], name='Positive Cases',
                           line = dict(color='red',width=1)), row=1, col=1, secondary_y=False)
fig.add_trace(go.Scatter(x = df_mas_cases['date'], y = df_mas_cases['cases_recovered'],name='Recovered Cases',
                            line = dict(color='blue',width=0.5)),row=1, col=1, secondary_y=True)
fig.add_trace(go.Scatter(x = df_mas_cases['date'], y = df_mas_cases['cum_recovered'],name='Recovered Cases',
                            line = dict(color='blue',width=1)),row=1, col=1, secondary_y=False)
fig.add_hline(y=df_mas_cases['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Ave. Cases", annotation_position="bottom left",row=1, col=1)
fig.add_hline(y=df_mas_cases['cases_recovered'].mean(), line_dash="dot",line_color="blue",
              annotation_text="Ave. Recovered", annotation_position="top left",row=1, col=1)
#Graph 2
fig.add_trace(go.Scatter(x = df_icu_daily['date'], y = df_icu_daily['icu_covid'],name='ICU Covid',
                           line = dict(color='blue', width=0.5)),row=1, col=2, secondary_y=True)
fig.add_trace(go.Scatter(x = df_icu_daily['date'], y = df_icu_daily['icu_covid_cum'],name='ICU Covid',
                           line = dict(color='red', width=0.5)),row=1, col=2, secondary_y=False)
fig.add_hline(y = df_icu_daily['icu_covid'].mean(), line_dash="dot",line_color="blue",
              annotation_text="Ave. Daily", annotation_position="bottom left",row=1, col=2)
fig.add_hline(y = df_icu_daily['icu_covid_cum'].mean(), line_dash="dot",line_color="red",
              annotation_text="Ave. Cum.", annotation_position="bottom left",row=1, col=2)
# Graph 3
fig.add_trace(go.Scatter(x = df_mas_deaths['date'], y = df_mas_deaths['deaths_new_dod'],name='Deaths Cases',
                           line = dict(width=0.5, color='blue')),row=2, col=1, secondary_y=True)
fig.add_trace(go.Scatter(x = df_mas_deaths['date'], y = df_mas_deaths['cum_deaths'],name='Deaths Cases',
                           line = dict(width=1, color='blue')),row=2, col=1, secondary_y=False)
fig.add_hline(y=df_mas_deaths['deaths_new_dod'].mean(), line_dash="dot",line_color="blue",
              annotation_text="Ave. Daily Deaths", annotation_position="top left",row=2, col=1)
fig.add_trace(go.Scatter(x = df_mas_deaths['date'], y = df_mas_deaths['deaths_bid_dod'],name='BID Cases',
                           line = dict(width=0.5, color='red')),row=2, col=1, secondary_y=True)
fig.add_trace(go.Scatter(x = df_mas_deaths['date'], y = df_mas_deaths['deaths_vax_total'],name='Deaths Vaccinated Cases',
                            line = dict(width=0.5, color='black')),row=2, col=1, secondary_y=True)
fig.add_trace(go.Scatter(x = df_mas_deaths['date'], y = df_mas_deaths['cum_deaths_vax'],name='Deaths Vaccinated Cases',
                            line = dict(width=1, color='black')),row=2, col=1, secondary_y=False)
#Graph 4
fig.add_trace(go.Scatter(x = df_mas_test['date'], y = df_mas_test['total_test'],name='Daily Covid19 Test',
                           line = dict(color='blue', width=0.5)),row=2, col=2, secondary_y=False)
fig.add_trace(go.Scatter(x = df_mas_test['date'], y = df_mas_test['cum_total'],name='Cumulative Covid19 Test',
                           line = dict(color='red', width=1)),row=2, col=2, secondary_y=True)
fig.add_hline(y=df_mas_test['total_test'].mean(), line_dash="dot",line_color="blue",
              annotation_text="Ave. Daily Test", annotation_position="top left",row=2, col=2)
#Graph 5
fig.add_trace(go.Scatter(x = df_hosp_daily['date'], y = df_hosp_daily['admitted_covid'],name='Admitted',
                           line = dict(color='blue', width=0.5)),row=1, col=3, secondary_y=True)
fig.add_trace(go.Scatter(x = df_hosp_daily['date'], y = df_hosp_daily['discharged_covid'],name='Discharged',
                           line = dict(color='red', width=0.5)),row=1, col=3, secondary_y=True)
fig.add_trace(go.Scatter(x = df_hosp_daily['date'], y = df_hosp_daily['admitted_covid_cum'],name='Admitted',
                           line = dict(color='blue', width=1)),row=1, col=3, secondary_y=False)
fig.add_trace(go.Scatter(x = df_hosp_daily['date'], y = df_hosp_daily['discharged_covid_cum'],name='Discharged',
                           line = dict(color='red', width=1)),row=1, col=3, secondary_y=False)
fig.add_hline(y = df_hosp_daily['admitted_covid'].mean(), line_dash="dot",line_color="blue",
              annotation_text="Ave. Admitted", annotation_position="bottom left",row=1, col=3)
fig.add_hline(y = df_hosp_daily['discharged_covid'].mean(), line_dash="dot",line_color="red",
              annotation_text="Ave. Discharged", annotation_position="top left",row=1, col=3)
#Graph 6
fig.add_trace(go.Scatter(x = df_pkrc_daily['date'], y = df_pkrc_daily['admitted_covid'],name='Admitted',
                           line = dict(color='blue', width=0.5)),row=1, col=4, secondary_y=True)
fig.add_trace(go.Scatter(x = df_pkrc_daily['date'], y = df_pkrc_daily['discharged_covid'],name='Discharged',
                           line = dict(color='red', width=0.5)),row=1, col=4, secondary_y=True)
fig.add_trace(go.Scatter(x = df_pkrc_daily['date'], y = df_pkrc_daily['admitted_covid_cum'],name='Admitted',
                           line = dict(color='blue', width=1)),row=1, col=4, secondary_y=False)
fig.add_trace(go.Scatter(x = df_pkrc_daily['date'], y = df_pkrc_daily['discharged_covid_cum'],name='Discharged',
                           line = dict(color='red', width=1)),row=1, col=4, secondary_y=False)
fig.add_hline(y = df_pkrc_daily['admitted_covid'].mean(), line_dash="dot",line_color="blue",
              annotation_text="Ave. Admitted", annotation_position="bottom left",row=1, col=4)
fig.add_hline(y = df_pkrc_daily['discharged_covid'].mean(), line_dash="dot",line_color="red",
              annotation_text="Ave. Discharged", annotation_position="top left",row=1, col=4)
#Graph 7
fig.add_trace(go.Bar(x = df_states_graph['state'], y = df_states_graph['admitted_covid'],name='Admitted Cases',
                       marker_color='blue'),row=2, col=3, secondary_y=False)
fig.add_trace(go.Bar(x = df_states_graph['state'], y = df_states_graph['discharged_covid'],name='Discharged Cases',
                       marker_color='red'),row=2, col=3, secondary_y=False)
#Graph 8
fig.add_trace(go.Bar(x = df_states_graph['state'], y = df_states_graph['vaksin_percentage_partial'],
                        name='Partial Vaksin (%)',marker_color='blue'),row=2, col=4, secondary_y=False)
fig.add_trace(go.Bar(x = df_states_graph['state'], y = df_states_graph['vaksin_percentage_full'],
                        name='Full Vaksin (%)',marker_color='red'),row=2, col=4, secondary_y=False)
#Update Fonts & Size
fig.update_annotations(font=dict(family="Helvetica", size=11))
fig.update_layout(font=dict(family="Helvetica", size=11))
fig.update_layout(height=600,showlegend=False,title_text="Malaysia Covid19 Cases Overview", title_x=0.5)
fig.update_xaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
fig.update_yaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')

# add a horizontal line & annotations
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0=0, x1=16, xref="paper", y0=90, y1=90, yref="y",row=2, col=4)
fig.add_annotation(text='90% Vax. Pop.', x=6, y=90, arrowhead=1, showarrow=True,row=2, col=4)
#Plotting the graph
fig.show()
In [35]:
fig = make_subplots(rows=1, cols=4, specs=[[{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}]],
                    
subplot_titles=('<b>Total Daily Vax.</b>',
                '<b>Cumulative Daily Vax.</b>',
                '<b>Full, Partial & Booster</b>',
                '<b>Pfizer, Sinovac, AZ & Cansino</b>'))
#Graph 1
fig.add_trace(go.Scatter(x = df_mas_vaksin['date'], y = df_mas_vaksin['daily'],name='Total Daily Vaccinated',
                           line = dict(color='red',width=0.5)),row=1, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_mas_vaksin['date'], y = df_mas_vaksin['Vax. (%)'],name='Vax. (%)',
                           line = dict(color='blue',width=0.5)),row=1, col=1,secondary_y=True)
fig.add_hline(y=df_mas_vaksin['daily'].mean(), line_dash="dot",line_color="black",
              annotation_text="Ave. Daily Vax.", annotation_position="top left",row=1, col=1)
#Graph 2
fig.add_trace(go.Scatter(x = df_mas_vaksin['date'], y = df_mas_vaksin['Cum. Daily'],name='Cum. Daily Vaccinated',
                           line = dict(color='red',width=0.5)),row=1, col=2,secondary_y=False)
fig.add_hline(y=df_mas_vaksin['Cum. Daily'].mean(), line_dash="dot",line_color="black",
              annotation_text="Ave. Cum. Vax.", annotation_position="top left",row=1, col=2)
#Grpah 3
fig.add_trace(go.Scatter(x = df_mas_vaksin['date'], y = df_mas_vaksin['daily_partial'],name='Partial',
                           line = dict(color='red',width=0.5)),row=1, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_mas_vaksin['date'], y = df_mas_vaksin['daily_full'],name='Full',
                           line = dict(color='blue',width=0.5)),row=1, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_mas_vaksin['date'], y = df_mas_vaksin['daily_booster'],name='Booster',
                           line = dict(color='green',width=0.5)),row=1, col=3,secondary_y=True)
fig.add_hline(y=df_mas_vaksin['daily'].mean(), line_dash="dot",line_color="black",
              annotation_text="Ave. Daily Vax.", annotation_position="top left",row=1, col=3)
#Graph 4
fig.add_trace(go.Scatter(x = df_mas_vaksin['date'], y = df_mas_vaksin['Total Pfizer'],name='Pfizer',
                           line = dict(color='red',width=0.5)),row=1, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_mas_vaksin['date'], y = df_mas_vaksin['Total Sinovac'],name='Sinovac',
                           line = dict(color='blue',width=0.5)),row=1, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_mas_vaksin['date'], y = df_mas_vaksin['Total AstraZ'],name='Astra Zaneca',
                           line = dict(color='green',width=0.5)),row=1, col=4,secondary_y=True)
fig.add_trace(go.Scatter(x = df_mas_vaksin['date'], y = df_mas_vaksin['cansino'],name='Cansino',
                           line = dict(color='black',width=0.5)),row=1, col=4,secondary_y=True)
fig.add_hline(y=df_mas_vaksin['daily'].mean(), line_dash="dot",line_color="black",
              annotation_text="Ave. Daily Vax.", annotation_position="top left",row=1, col=4)
#Update Fonts & Size
fig.update_annotations(font=dict(family="Helvetica", size=11))
fig.update_layout(font=dict(family="Helvetica", size=11))
fig.update_layout(height=350,showlegend=False,title_text="Daily Vaccination Details", title_x=0.5)
fig.update_xaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
fig.update_yaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')

#Plotting the graph
fig.show()
In [36]:
#Forecasting of New Cases VS Recovered Cases
#Importing the required module
#from statsmodels.graphics.tsaplots import plot_acf, plot_pacf
#from statsmodels.tsa.statespace.varmax import VARMAX
#from statsmodels.tsa.api import VAR
#from statsmodels.tsa.stattools import grangercausalitytests, adfuller
#from tqdm import tqdm_notebook
#from itertools import product
#import statsmodels.api as sm
#import warnings
#warnings.filterwarnings('ignore')
#Importing the required datasets
#filepath_cases = 'https://raw.githubusercontent.com/MoH-Malaysia/covid19-public/main/epidemic/cases_malaysia.csv'
#filepath_deaths = "https://raw.githubusercontent.com/MoH-Malaysia/covid19-public/main/epidemic/deaths_malaysia.csv"
#filepath_vaksin = 'https://raw.githubusercontent.com/CITF-Malaysia/citf-public/main/vaccination/vax_malaysia.csv'
#Preparing the required datasets
#filepath_cases = pd.read_csv(filepath_cases, parse_dates=['date'], index_col='date').astype('float64')
#filepath_deaths = pd.read_csv(filepath_deaths, parse_dates=['date'], index_col='date').astype('float64')
#filepath_vaksin = pd.read_csv(filepath_vaksin, parse_dates=['date'], index_col='date').astype('float64')
#macro_data = pd.merge(filepath_cases,filepath_deaths,on='date')
#macro_data = pd.merge(macro_data,filepath_vaksin,on='date')
#macro_data['cases_vax_total'] = macro_data['cases_pvax'] + macro_data['cases_fvax']
#macro_data['deaths_vax_total'] = macro_data['deaths_pvax'] + macro_data['deaths_fvax']
#macro_data = macro_data[['cases_new','cases_active']]
#train_df=macro_data[:-12]
#test_df=macro_data[-360:]
#model = VAR(train_df.diff()[1:])
#sorted_order=model.select_order(maxlags=30)
#var_model = VARMAX(train_df, order=(4,0),enforce_stationarity= False)
#fitted_model = var_model.fit(disp=True)
#Creating the required forecast
#n_forecast = 180
#predict = fitted_model.get_prediction(start=len(train_df),end=len(train_df) + n_forecast-1)
#predictions=predict.predicted_mean
#predictions.columns=['cases_predicted','cases_active_predicted']
#test_vs_pred=pd.concat([test_df,predictions],axis=1)
#test_vs_pred = test_vs_pred.reset_index()
#test_vs_pred['cases_new_cum'] = test_vs_pred['cases_new'].cumsum()
#test_vs_pred['cases_active_cum'] = test_vs_pred['cases_active'].cumsum()
#test_vs_pred['cases_predicted_cum'] = test_vs_pred['cases_predicted'].cumsum()
#test_vs_pred['cases_active_predicted_cum'] = test_vs_pred['cases_active_predicted'].cumsum()
#Plotting the required forecast
#fig = make_subplots(specs=[[{'secondary_y': True}]])
#fig.add_trace(go.Scatter(x = test_vs_pred['index'], y = test_vs_pred['cases_new'], name ='Positive Cases', line = dict(color='blue', width=1)), secondary_y=True)
#fig.add_trace(go.Scatter(x = test_vs_pred['index'], y = test_vs_pred['cases_new_cum'], name ='Positive Cases', line = dict(color='blue', width=1)), secondary_y=False)
#fig.add_trace(go.Scatter(x = test_vs_pred['index'], y = test_vs_pred['cases_active'], name = 'Positive Cases After Vaccinated',line = dict(color='red', width=1)), secondary_y=True)
#fig.add_trace(go.Scatter(x = test_vs_pred['index'], y = test_vs_pred['cases_active_cum'], name = 'Positive Cases After Vaccinated',line = dict(color='red', width=1)), secondary_y=False)
#fig.add_trace(go.Scatter(x = test_vs_pred['index'], y = test_vs_pred['cases_predicted'], name = 'Predicted Positive Cases',line = dict(color='blue', width=0.75)), secondary_y=True)
#fig.add_trace(go.Scatter(x = test_vs_pred['index'], y = test_vs_pred['cases_active_predicted'], name = 'Predicted Positive Cases After Vaccinated',line = dict(color='red', width=0.75)), secondary_y=True)


#fig.update_layout(title_text='Malaysia Covid19 Forecast of Positive & Active Cases (Based on VAR Model)', title_x=0.5,showlegend=False, height=600)
#fig.update_xaxes(title_text='')
#fig.update_annotations(font=dict(family="Helvetica", size=12))
#fig.update_layout(font=dict(family="Helvetica", size=14))
#fig.update_xaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
#fig.update_yaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
#fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot", x0='2021-10-11', x1='2021-10-11',  y0=0, y1=800000)
#fig.add_annotation(text='90% Adult Vax.', x='2021-10-11', y=800000, arrowhead=3, align='center', arrowsize=1, arrowwidth=2, arrowcolor="#636363",xref='x', ax=50, ay=-90, showarrow=True, xanchor="left", yanchor="bottom")
#fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot", x0='2021-11-20', x1='2021-11-20',  y0=0, y1=600000)
#fig.add_annotation(text='PRN Melaka', x='2021-11-20', y=600000, arrowhead=3, align='center', arrowsize=1, arrowwidth=2, arrowcolor="#636363",xref='x', ax=50, ay=-90, showarrow=True, xanchor="left", yanchor="bottom")
#fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot", x0='2021-12-06', x1='2021-12-06',  y0=0, y1=500000)
#fig.add_annotation(text='PRN Sarawak', x='2021-12-06', y=500000, arrowhead=3, align='center', arrowsize=1, arrowwidth=2, arrowcolor="#636363",xref='x', ax=50, ay=-90, showarrow=True, xanchor="left", yanchor="bottom")
#fig.show()
In [37]:
df = df_states_cases
df_joh = df[df.state == 'Johor']
df_ked = df[df.state == 'Kedah']
df_kel = df[df.state == 'Kelantan']
df_mel = df[df.state == 'Melaka']
df_neg = df[df.state == 'Negeri Sembilan']
df_pah = df[df.state == 'Pahang']
df_prk = df[df.state == 'Perak']
df_per = df[df.state == 'Perlis']
df_pen = df[df.state == 'Pulau Pinang']
df_sab = df[df.state == 'Sabah']
df_sar = df[df.state == 'Sarawak']
df_sel = df[df.state == 'Selangor']
df_ter = df[df.state == 'Terengganu']
df_kul = df[df.state == 'W.P. Kuala Lumpur']
df_lab = df[df.state == 'W.P. Labuan']
df_put = df[df.state == 'W.P. Putrajaya']
fig = make_subplots(rows=4, cols=4, specs=[[{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}],
                                           [{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}],
                                           [{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}],
                                           [{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}]],
                    
subplot_titles=('<b>Johor</b>', '<b>Kedah</b>', '<b>Kelantan</b>', '<b>Melaka</b>',
                '<b>Negeri Sembilan</b>', '<b>Pahang</b>', '<b>Perak</b>', '<b>Perlis</b>',
                '<b>Pulau Pinang</b>', '<b>Sabah</b>', '<b>Sarawak</b>', '<b>Selangor</b>',
                '<b>Terengganu</b>', '<b>W.P. Kuala Lumpur</b>', '<b>W.P. Labuan</b>', '<b>W.P. Putrajaya</b>'))
#Graph 1
fig.add_trace(go.Scatter(x = df_joh['date'], y = df_joh['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=1, col=1,secondary_y=False)
fig.add_hline(y=df_joh['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=1, col=1)
fig.add_trace(go.Scatter(x = df_joh['date'], y = df_joh['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=1, col=1,secondary_y=True)
#Graph 2
fig.add_trace(go.Scatter(x = df_ked['date'], y = df_ked['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=1, col=2,secondary_y=False)
fig.add_hline(y=df_ked['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=1, col=2)
fig.add_trace(go.Scatter(x = df_ked['date'], y = df_ked['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=1, col=2,secondary_y=True)
#Graph 3
fig.add_trace(go.Scatter(x = df_kel['date'], y = df_kel['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=1, col=3,secondary_y=False)
fig.add_hline(y=df_kel['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=1, col=3)
fig.add_trace(go.Scatter(x = df_kel['date'], y = df_kel['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=1, col=3,secondary_y=True)
#Graph 4
fig.add_trace(go.Scatter(x = df_mel['date'], y = df_mel['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=1, col=4,secondary_y=False)
fig.add_hline(y=df_mel['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=1, col=4)
fig.add_trace(go.Scatter(x = df_mel['date'], y = df_mel['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=1, col=4,secondary_y=True)
#Graph 5
fig.add_trace(go.Scatter(x = df_neg['date'], y = df_neg['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=2, col=1,secondary_y=False)
fig.add_hline(y=df_neg['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=2, col=1)
fig.add_trace(go.Scatter(x = df_neg['date'], y = df_neg['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=2, col=1,secondary_y=True)
#Graph 6
fig.add_trace(go.Scatter(x = df_pah['date'], y = df_pah['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=2, col=2,secondary_y=False)
fig.add_hline(y=df_pah['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=2, col=2)
fig.add_trace(go.Scatter(x = df_pah['date'], y = df_pah['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=2, col=2,secondary_y=True)
#Graph 7
fig.add_trace(go.Scatter(x = df_prk['date'], y = df_prk['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=2, col=3,secondary_y=False)
fig.add_hline(y=df_prk['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=2, col=3)
fig.add_trace(go.Scatter(x = df_prk['date'], y = df_prk['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=2, col=3,secondary_y=True)
#Graph 8
fig.add_trace(go.Scatter(x = df_per['date'], y = df_per['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=2, col=4,secondary_y=False)
fig.add_hline(y=df_per['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=2, col=4)
fig.add_trace(go.Scatter(x = df_per['date'], y = df_per['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=2, col=4,secondary_y=True)
#Graph 9
fig.add_trace(go.Scatter(x = df_pen['date'], y = df_pen['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=3, col=1,secondary_y=False)
fig.add_hline(y=df_pen['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=3, col=1)
fig.add_trace(go.Scatter(x = df_pen['date'], y = df_pen['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=3, col=1,secondary_y=True)
#Graph 10
fig.add_trace(go.Scatter(x = df_sab['date'], y = df_sab['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=3, col=2,secondary_y=False)
fig.add_hline(y=df_sab['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=3, col=2)
fig.add_trace(go.Scatter(x = df_sab['date'], y = df_sab['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=3, col=2,secondary_y=True)
#Graph 11
fig.add_trace(go.Scatter(x = df_sar['date'], y = df_sar['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=3, col=3,secondary_y=False)
fig.add_hline(y=df_sar['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=3, col=3)
fig.add_trace(go.Scatter(x = df_sar['date'], y = df_sar['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=3, col=3,secondary_y=True)
#Graph 12
fig.add_trace(go.Scatter(x = df_sel['date'], y = df_sel['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=3, col=4,secondary_y=False)
fig.add_hline(y=df_sel['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=3, col=4)
fig.add_trace(go.Scatter(x = df_sel['date'], y = df_sel['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=3, col=4,secondary_y=True)
#Graph 13
fig.add_trace(go.Scatter(x = df_ter['date'], y = df_ter['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=4, col=1,secondary_y=False)
fig.add_hline(y=df_ter['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=4, col=1)
fig.add_trace(go.Scatter(x = df_ter['date'], y = df_ter['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=4, col=1,secondary_y=True)
#Graph 14
fig.add_trace(go.Scatter(x = df_kul['date'], y = df_kul['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=4, col=2,secondary_y=False)
fig.add_hline(y=df_kul['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=4, col=2)
fig.add_trace(go.Scatter(x = df_kul['date'], y = df_kul['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=4, col=2,secondary_y=True)
#Graph 15
fig.add_trace(go.Scatter(x = df_lab['date'], y = df_lab['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=4, col=3,secondary_y=False)
fig.add_hline(y=df_lab['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=4, col=3)
fig.add_trace(go.Scatter(x = df_lab['date'], y = df_lab['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=4, col=3,secondary_y=True)
#Graph 16
fig.add_trace(go.Scatter(x = df_put['date'], y = df_put['cases_new'],name='cases_new',
                        line = dict(color='red', width=0.75)), row=4, col=4,secondary_y=False)
fig.add_hline(y=df_put['cases_new'].mean(), line_dash="dot",line_color="red",
              annotation_text="Average Cases", annotation_position="top left",row=4, col=4)
fig.add_trace(go.Scatter(x = df_put['date'], y = df_put['cases_recovered'],name='cases_recovered',
                        line = dict(color='blue', width=0.75)), row=4, col=4,secondary_y=True)
#Adding title and adjusting the layout
fig.update_layout(height=1000,showlegend=False,title_text="Covid19 Cases & Recovered At Each States",title_x=0.5)
fig.update_annotations(font=dict(family="Helvetica", size=10))
fig.update_layout(font=dict(family="Helvetica", size=12))
fig.update_xaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
fig.update_yaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
#Plotting the graph
fig.show()
In [38]:
df = df_states_deaths
df['deaths_vax_total'] = df['deaths_fvax'] + df['deaths_pvax'] 
df_joh = df[df.state == 'Johor']
df_ked = df[df.state == 'Kedah']
df_kel = df[df.state == 'Kelantan']
df_mel = df[df.state == 'Melaka']
df_neg = df[df.state == 'Negeri Sembilan']
df_pah = df[df.state == 'Pahang']
df_prk = df[df.state == 'Perak']
df_per = df[df.state == 'Perlis']
df_pen = df[df.state == 'Pulau Pinang']
df_sab = df[df.state == 'Sabah']
df_sar = df[df.state == 'Sarawak']
df_sel = df[df.state == 'Selangor']
df_ter = df[df.state == 'Terengganu']
df_kul = df[df.state == 'W.P. Kuala Lumpur']
df_lab = df[df.state == 'W.P. Labuan']
df_put = df[df.state == 'W.P. Putrajaya']
fig = make_subplots(rows=4, cols=4, specs=[[{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}],
                                           [{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}],
                                           [{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}],
                                           [{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}]],
                    
subplot_titles=('<b>Johor</b>', '<b>Kedah</b>', '<b>Kelantan</b>', '<b>Melaka</b>',
                '<b>Negeri Sembilan</b>', '<b>Pahang</b>', '<b>Perak</b>', '<b>Perlis</b>',
                '<b>Pulau Pinang</b>', '<b>Sabah</b>', '<b>Sarawak</b>', '<b>Selangor</b>',
                '<b>Terengganu</b>', '<b>W.P. Kuala Lumpur</b>', '<b>W.P. Labuan</b>', '<b>W.P. Putrajaya</b>'))
#Graph 1
fig.add_trace(go.Scatter(x = df_joh['date'], y = df_joh['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=1, col=1,secondary_y=False)
fig.add_hline(y=df_joh['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=1, col=1)
fig.add_trace(go.Scatter(x = df_joh['date'], y = df_joh['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=1, col=1,secondary_y=False)
#Graph 2
fig.add_trace(go.Scatter(x = df_ked['date'], y = df_ked['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=1, col=2,secondary_y=False)
fig.add_hline(y=df_ked['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=1, col=2)
fig.add_trace(go.Scatter(x = df_ked['date'], y = df_ked['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=1, col=2,secondary_y=False)
#Graph 3
fig.add_trace(go.Scatter(x = df_kel['date'], y = df_kel['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=1, col=3,secondary_y=False)
fig.add_hline(y=df_kel['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=1, col=3)
fig.add_trace(go.Scatter(x = df_kel['date'], y = df_kel['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=1, col=3,secondary_y=False)
#Graph 4
fig.add_trace(go.Scatter(x = df_mel['date'], y = df_mel['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=1, col=4,secondary_y=False)
fig.add_hline(y=df_mel['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=1, col=4)
fig.add_trace(go.Scatter(x = df_mel['date'], y = df_mel['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=1, col=4,secondary_y=False)
#Graph 5
fig.add_trace(go.Scatter(x = df_neg['date'], y = df_neg['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=2, col=1,secondary_y=False)
fig.add_hline(y=df_neg['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=2, col=1)
fig.add_trace(go.Scatter(x = df_neg['date'], y = df_neg['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=2, col=1,secondary_y=False)
#Graph 6
fig.add_trace(go.Scatter(x = df_pah['date'], y = df_pah['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=2, col=2,secondary_y=False)
fig.add_hline(y=df_pah['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=2, col=2)
fig.add_trace(go.Scatter(x = df_pah['date'], y = df_pah['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=2, col=2,secondary_y=False)
#Graph 7
fig.add_trace(go.Scatter(x = df_prk['date'], y = df_prk['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=2, col=3,secondary_y=False)
fig.add_hline(y=df_prk['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=2, col=3)
fig.add_trace(go.Scatter(x = df_prk['date'], y = df_prk['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=2, col=3,secondary_y=False)
#Graph 8
fig.add_trace(go.Scatter(x = df_per['date'], y = df_per['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=2, col=4,secondary_y=False)
fig.add_hline(y=df_per['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=2, col=4)
fig.add_trace(go.Scatter(x = df_per['date'], y = df_per['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=2, col=4,secondary_y=False)
#Graph 9
fig.add_trace(go.Scatter(x = df_pen['date'], y = df_pen['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=3, col=1,secondary_y=False)
fig.add_hline(y=df_pen['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=3, col=1)
fig.add_trace(go.Scatter(x = df_pen['date'], y = df_pen['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=3, col=1,secondary_y=False)
#Graph 10
fig.add_trace(go.Scatter(x = df_sab['date'], y = df_sab['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=3, col=2,secondary_y=False)
fig.add_hline(y=df_sab['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=3, col=2)
fig.add_trace(go.Scatter(x = df_sab['date'], y = df_sab['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=3, col=2,secondary_y=False)
#Graph 11
fig.add_trace(go.Scatter(x = df_sar['date'], y = df_sar['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=3, col=3,secondary_y=False)
fig.add_hline(y=df_sar['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=3, col=3)
fig.add_trace(go.Scatter(x = df_sar['date'], y = df_sar['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=3, col=3,secondary_y=False)
#Graph 12
fig.add_trace(go.Scatter(x = df_sel['date'], y = df_sel['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=3, col=4,secondary_y=False)
fig.add_hline(y=df_sel['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=3, col=4)
fig.add_trace(go.Scatter(x = df_sel['date'], y = df_sel['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=3, col=4,secondary_y=False)
#Graph 13
fig.add_trace(go.Scatter(x = df_ter['date'], y = df_ter['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=4, col=1,secondary_y=False)
fig.add_hline(y=df_ter['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=4, col=1)
fig.add_trace(go.Scatter(x = df_ter['date'], y = df_ter['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=4, col=1,secondary_y=False)
#Graph 14
fig.add_trace(go.Scatter(x = df_kul['date'], y = df_kul['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=4, col=2,secondary_y=False)
fig.add_hline(y=df_kul['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=4, col=2)
fig.add_trace(go.Scatter(x = df_kul['date'], y = df_kul['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=4, col=2,secondary_y=False)
#Graph 15
fig.add_trace(go.Scatter(x = df_lab['date'], y = df_lab['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=4, col=3,secondary_y=False)
fig.add_hline(y=df_lab['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=4, col=3)
fig.add_trace(go.Scatter(x = df_lab['date'], y = df_lab['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=4, col=3,secondary_y=False)
#Graph 16
fig.add_trace(go.Scatter(x = df_put['date'], y = df_put['deaths_new_dod'],name='Total Deaths',
                        line = dict(color='red', width=0.75)), row=4, col=4,secondary_y=False)
fig.add_hline(y=df_put['deaths_new_dod'].mean(), line_dash="dot",line_color="red", annotation_text="Average Deaths", 
              annotation_position="top left",row=4, col=4)
fig.add_trace(go.Scatter(x = df_put['date'], y = df_put['deaths_vax_total'],name='Total Deaths Vax',
                        line = dict(color='blue', width=0.75)), row=4, col=4,secondary_y=False)
#Adding title and adjusting the layout
fig.update_layout(height=1000,showlegend=False,title_text="Covid19 Daily Deaths Total & Vaccinated At Each States",title_x=0.5)
fig.update_annotations(font=dict(family="Helvetica", size=10))
fig.update_layout(font=dict(family="Helvetica", size=12))
fig.update_xaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
fig.update_yaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
#Plotting the graph
fig.show()
In [39]:
#Extracting And Separating Data For Each States
#Johor
df = df_states_vaksin
df_joh = df[df.state == 'Johor']
df_joh['cum_partial'] = df_joh['daily_partial'].cumsum()
df_joh['cum_full'] = df_joh['daily_full'].cumsum()
df_joh['cum_booster'] = df_joh['daily_booster'].cumsum()
#Kedah
df_ked = df[df.state == 'Kedah']
df_ked['cum_partial'] = df_ked['daily_partial'].cumsum()
df_ked['cum_full'] = df_ked['daily_full'].cumsum()
df_ked['cum_booster'] = df_ked['daily_booster'].cumsum()
#Kelantan
df_kel = df[df.state == 'Kelantan']
df_kel['cum_partial'] = df_kel['daily_partial'].cumsum()
df_kel['cum_full'] = df_kel['daily_full'].cumsum()
df_kel['cum_booster'] = df_kel['daily_booster'].cumsum()
#Melaka
df_mel = df[df.state == 'Melaka']
df_mel['cum_partial'] = df_mel['daily_partial'].cumsum()
df_mel['cum_full'] = df_mel['daily_full'].cumsum()
df_mel['cum_booster'] = df_mel['daily_booster'].cumsum()
#Negeri Sembilan
df_neg = df[df.state == 'Negeri Sembilan']
df_neg['cum_partial'] = df_neg['daily_partial'].cumsum()
df_neg['cum_full'] = df_neg['daily_full'].cumsum()
df_neg['cum_booster'] = df_neg['daily_booster'].cumsum()
#Pahang
df_pah = df[df.state == 'Pahang']
df_pah['cum_partial'] = df_pah['daily_partial'].cumsum()
df_pah['cum_full'] = df_pah['daily_full'].cumsum()
df_pah['cum_booster'] = df_pah['daily_booster'].cumsum()
#Perak
df_prk = df[df.state == 'Perak']
df_prk['cum_partial'] = df_prk['daily_partial'].cumsum()
df_prk['cum_full'] = df_prk['daily_full'].cumsum()
df_prk['cum_booster'] = df_prk['daily_booster'].cumsum()
#Perlis
df_per = df[df.state == 'Perlis']
df_per['cum_partial'] = df_per['daily_partial'].cumsum()
df_per['cum_full'] = df_per['daily_full'].cumsum()
df_per['cum_booster'] = df_per['daily_booster'].cumsum()
#Pulau Pinang
df_pen = df[df.state == 'Pulau Pinang']
df_pen['cum_partial'] = df_pen['daily_partial'].cumsum()
df_pen['cum_full'] = df_pen['daily_full'].cumsum()
df_pen['cum_booster'] = df_pen['daily_booster'].cumsum()
#Sabah
df_sab = df[df.state == 'Sabah']
df_sab['cum_partial'] = df_sab['daily_partial'].cumsum()
df_sab['cum_full'] = df_sab['daily_full'].cumsum()
df_sab['cum_booster'] = df_sab['daily_booster'].cumsum()
#Sarawak
df_sar = df[df.state == 'Sarawak']
df_sar['cum_partial'] = df_sar['daily_partial'].cumsum()
df_sar['cum_full'] = df_sar['daily_full'].cumsum()
df_sar['cum_booster'] = df_sar['daily_booster'].cumsum()
#Selangor
df_sel = df[df.state == 'Selangor']
df_sel['cum_partial'] = df_sel['daily_partial'].cumsum()
df_sel['cum_full'] = df_sel['daily_full'].cumsum()
df_sel['cum_booster'] = df_sel['daily_booster'].cumsum()
#Terengganu
df_ter = df[df.state == 'Terengganu']
df_ter['cum_partial'] = df_ter['daily_partial'].cumsum()
df_ter['cum_full'] = df_ter['daily_full'].cumsum()
df_ter['cum_booster'] = df_ter['daily_booster'].cumsum()
#Kuala Lumpur
df_kul = df[df.state == 'W.P. Kuala Lumpur']
df_kul['cum_partial'] = df_kul['daily_partial'].cumsum()
df_kul['cum_full'] = df_kul['daily_full'].cumsum()
df_kul['cum_booster'] = df_kul['daily_booster'].cumsum()
#Labuan
df_lab = df[df.state == 'W.P. Labuan']
df_lab['cum_partial'] = df_lab['daily_partial'].cumsum()
df_lab['cum_full'] = df_lab['daily_full'].cumsum()
df_lab['cum_booster'] = df_lab['daily_booster'].cumsum()
#Putrajaya
df_put = df[df.state == 'W.P. Putrajaya']
df_put['cum_partial'] = df_put['daily_partial'].cumsum()
df_put['cum_full'] = df_put['daily_full'].cumsum()
df_put['cum_booster'] = df_put['daily_booster'].cumsum()
In [40]:
fig = make_subplots(rows=4, cols=4, specs=[[{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}],
                                           [{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}],
                                           [{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}],
                                           [{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}]],
                    
subplot_titles=('<b>Johor</b>', '<b>Kedah</b>', '<b>Kelantan</b>', '<b>Melaka</b>',
                '<b>Negeri Sembilan</b>', '<b>Pahang</b>', '<b>Perak</b>', '<b>Perlis</b>',
                '<b>Pulau Pinang</b>', '<b>Sabah</b>', '<b>Sarawak</b>', '<b>Selangor</b>',
                '<b>Terengganu</b>', '<b>W.P. Kuala Lumpur</b>', '<b>W.P. Labuan</b>', '<b>W.P. Putrajaya</b>'))
#Graph 1
fig.add_trace(go.Scatter(x = df_joh['date'], y = df_joh['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=1, col=1,secondary_y=True)
fig.add_trace(go.Scatter(x = df_joh['date'], y = df_joh['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=1, col=1,secondary_y=True)
fig.add_trace(go.Scatter(x = df_joh['date'], y = df_joh['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=1, col=1,secondary_y=True)
fig.add_trace(go.Scatter(x = df_joh['date'], y = df_joh['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=1, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_joh['date'], y = df_joh['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=1, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_joh['date'], y = df_joh['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=1, col=1,secondary_y=False)
#Graph 2
fig.add_trace(go.Scatter(x = df_ked['date'], y = df_ked['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=1, col=2,secondary_y=True)
fig.add_trace(go.Scatter(x = df_ked['date'], y = df_ked['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=1, col=2,secondary_y=True)
fig.add_trace(go.Scatter(x = df_ked['date'], y = df_ked['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=1, col=2,secondary_y=True)
fig.add_trace(go.Scatter(x = df_ked['date'], y = df_ked['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=1, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_ked['date'], y = df_ked['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=1, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_ked['date'], y = df_ked['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=1, col=2,secondary_y=False)
#Graph 3
fig.add_trace(go.Scatter(x = df_kel['date'], y = df_kel['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=1, col=3,secondary_y=True)
fig.add_trace(go.Scatter(x = df_kel['date'], y = df_kel['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=1, col=3,secondary_y=True)
fig.add_trace(go.Scatter(x = df_kel['date'], y = df_kel['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=1, col=3,secondary_y=True)
fig.add_trace(go.Scatter(x = df_kel['date'], y = df_kel['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=1, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_kel['date'], y = df_kel['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=1, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_kel['date'], y = df_kel['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=1, col=3,secondary_y=False)
#Graph 4
fig.add_trace(go.Scatter(x = df_mel['date'], y = df_mel['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=1, col=4,secondary_y=True)
fig.add_trace(go.Scatter(x = df_mel['date'], y = df_mel['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=1, col=4,secondary_y=True)
fig.add_trace(go.Scatter(x = df_mel['date'], y = df_mel['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=1, col=4,secondary_y=True)
fig.add_trace(go.Scatter(x = df_mel['date'], y = df_mel['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=1, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_mel['date'], y = df_mel['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=1, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_mel['date'], y = df_mel['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=1, col=4,secondary_y=False)
#Graph 5
fig.add_trace(go.Scatter(x = df_neg['date'], y = df_neg['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=2, col=1,secondary_y=True)
fig.add_trace(go.Scatter(x = df_neg['date'], y = df_neg['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=2, col=1,secondary_y=True)
fig.add_trace(go.Scatter(x = df_neg['date'], y = df_neg['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=2, col=1,secondary_y=True)
fig.add_trace(go.Scatter(x = df_neg['date'], y = df_neg['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=2, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_neg['date'], y = df_neg['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=2, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_neg['date'], y = df_neg['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=2, col=1,secondary_y=False)
#Graph 6
fig.add_trace(go.Scatter(x = df_pah['date'], y = df_pah['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=2, col=2,secondary_y=True)
fig.add_trace(go.Scatter(x = df_pah['date'], y = df_pah['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=2, col=2,secondary_y=True)
fig.add_trace(go.Scatter(x = df_pah['date'], y = df_pah['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=2, col=2,secondary_y=True)
fig.add_trace(go.Scatter(x = df_pah['date'], y = df_pah['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=2, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_pah['date'], y = df_pah['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=2, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_pah['date'], y = df_pah['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=2, col=2,secondary_y=False)
#Graph 7
fig.add_trace(go.Scatter(x = df_prk['date'], y = df_prk['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=2, col=3,secondary_y=True)
fig.add_trace(go.Scatter(x = df_prk['date'], y = df_prk['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=2, col=3,secondary_y=True)
fig.add_trace(go.Scatter(x = df_prk['date'], y = df_prk['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=2, col=3,secondary_y=True)
fig.add_trace(go.Scatter(x = df_prk['date'], y = df_prk['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=2, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_prk['date'], y = df_prk['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=2, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_prk['date'], y = df_prk['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=2, col=3,secondary_y=False)
#Graph 8
fig.add_trace(go.Scatter(x = df_per['date'], y = df_per['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=2, col=4,secondary_y=True)
fig.add_trace(go.Scatter(x = df_per['date'], y = df_per['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=2, col=4,secondary_y=True)
fig.add_trace(go.Scatter(x = df_per['date'], y = df_per['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=2, col=4,secondary_y=True)
fig.add_trace(go.Scatter(x = df_per['date'], y = df_per['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=2, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_per['date'], y = df_per['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=2, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_per['date'], y = df_per['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=2, col=4,secondary_y=False)
#Graph 9
fig.add_trace(go.Scatter(x = df_pen['date'], y = df_pen['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=3, col=1,secondary_y=True)
fig.add_trace(go.Scatter(x = df_pen['date'], y = df_pen['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=3, col=1,secondary_y=True)
fig.add_trace(go.Scatter(x = df_pen['date'], y = df_pen['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=3, col=1,secondary_y=True)
fig.add_trace(go.Scatter(x = df_pen['date'], y = df_pen['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=3, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_pen['date'], y = df_pen['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=3, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_pen['date'], y = df_pen['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=3, col=1,secondary_y=False)
#Graph 10
fig.add_trace(go.Scatter(x = df_sab['date'], y = df_sab['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=3, col=2,secondary_y=True)
fig.add_trace(go.Scatter(x = df_sab['date'], y = df_sab['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=3, col=2,secondary_y=True)
fig.add_trace(go.Scatter(x = df_sab['date'], y = df_sab['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=3, col=2,secondary_y=True)
fig.add_trace(go.Scatter(x = df_sab['date'], y = df_sab['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=3, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_sab['date'], y = df_sab['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=3, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_sab['date'], y = df_sab['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=3, col=2,secondary_y=False)
#Graph 11
fig.add_trace(go.Scatter(x = df_sar['date'], y = df_sar['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=3, col=3,secondary_y=True)
fig.add_trace(go.Scatter(x = df_sar['date'], y = df_sar['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=3, col=3,secondary_y=True)
fig.add_trace(go.Scatter(x = df_sar['date'], y = df_sar['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=3, col=3,secondary_y=True)
fig.add_trace(go.Scatter(x = df_sar['date'], y = df_sar['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=3, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_sar['date'], y = df_sar['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=3, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_sar['date'], y = df_sar['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=3, col=3,secondary_y=False)
#Graph 12
fig.add_trace(go.Scatter(x = df_sel['date'], y = df_sel['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=3, col=4,secondary_y=True)
fig.add_trace(go.Scatter(x = df_sel['date'], y = df_sel['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=3, col=4,secondary_y=True)
fig.add_trace(go.Scatter(x = df_sel['date'], y = df_sel['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=3, col=4,secondary_y=True)
fig.add_trace(go.Scatter(x = df_sel['date'], y = df_sel['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=3, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_sel['date'], y = df_sel['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=3, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_sel['date'], y = df_sel['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=3, col=4,secondary_y=False)
#Graph 13
fig.add_trace(go.Scatter(x = df_ter['date'], y = df_ter['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=4, col=1,secondary_y=True)
fig.add_trace(go.Scatter(x = df_ter['date'], y = df_ter['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=4, col=1,secondary_y=True)
fig.add_trace(go.Scatter(x = df_ter['date'], y = df_ter['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=4, col=1,secondary_y=True)
fig.add_trace(go.Scatter(x = df_ter['date'], y = df_ter['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=4, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_ter['date'], y = df_ter['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=4, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_ter['date'], y = df_ter['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=4, col=1,secondary_y=False)
#Graph 14
fig.add_trace(go.Scatter(x = df_kul['date'], y = df_kul['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=4, col=2,secondary_y=True)
fig.add_trace(go.Scatter(x = df_kul['date'], y = df_kul['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=4, col=2,secondary_y=True)
fig.add_trace(go.Scatter(x = df_kul['date'], y = df_kul['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=4, col=2,secondary_y=True)
fig.add_trace(go.Scatter(x = df_kul['date'], y = df_kul['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=4, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_kul['date'], y = df_kul['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=4, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_kul['date'], y = df_kul['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=4, col=2,secondary_y=False)
#Graph 15
fig.add_trace(go.Scatter(x = df_lab['date'], y = df_lab['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=4, col=3,secondary_y=True)
fig.add_trace(go.Scatter(x = df_lab['date'], y = df_lab['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=4, col=3,secondary_y=True)
fig.add_trace(go.Scatter(x = df_lab['date'], y = df_lab['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=4, col=3,secondary_y=True)
fig.add_trace(go.Scatter(x = df_lab['date'], y = df_lab['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=4, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_lab['date'], y = df_lab['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=4, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_lab['date'], y = df_lab['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=4, col=3,secondary_y=False)
#Graph 16
fig.add_trace(go.Scatter(x = df_put['date'], y = df_put['daily_full'],name='Full',
                        line = dict(color='blue', width=0.75)), row=4, col=4,secondary_y=True)
fig.add_trace(go.Scatter(x = df_put['date'], y = df_put['daily_partial'],name='Half',
                        line = dict(color='red', width=0.75)), row=4, col=4,secondary_y=True)
fig.add_trace(go.Scatter(x = df_put['date'], y = df_put['daily_booster'],name='Booster',
                        line = dict(color='green', width=0.75)), row=4, col=4,secondary_y=True)
fig.add_trace(go.Scatter(x = df_put['date'], y = df_put['cum_full'],name='Full',
                        line = dict(color='blue', width=1)), row=4, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_put['date'], y = df_put['cum_partial'],name='Half',
                        line = dict(color='red', width=1)), row=4, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_put['date'], y = df_put['cum_booster'],name='Booster',
                        line = dict(color='green', width=1)), row=4, col=4,secondary_y=False)
#Adding title and adjusting the layout
fig.update_layout(height=1000,showlegend=False,title_text="Covid19 Daily Vaccination (1D, 2D & 3D) At Each States",title_x=0.5)
fig.update_annotations(font=dict(family="Helvetica", size=10))
fig.update_layout(font=dict(family="Helvetica", size=12))
fig.update_xaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
fig.update_yaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
#Plotting the graph
fig.show()
In [41]:
dfpop = df_states_pop
#Creating new vax percentage columns at each states
#Johor
df_joh_pop = dfpop[dfpop.state == 'Johor']
df_joh_pop = df_joh_pop.at[df_joh_pop.index[0],'pop']
df_joh['2 Dos (%)'] = (df_joh['cum_full']/df_joh_pop)*100
#Kedah
df_ked_pop = dfpop[dfpop.state == 'Kedah']
df_ked_pop = df_ked_pop.at[df_ked_pop.index[0],'pop']
df_ked['2 Dos (%)'] = (df_ked['cum_full']/df_ked_pop)*100
#Kelantan
df_kel_pop = dfpop[dfpop.state == 'Kelantan']
df_kel_pop = df_kel_pop.at[df_kel_pop.index[0],'pop']
df_kel['2 Dos (%)'] = (df_kel['cum_full']/df_kel_pop)*100
#Melaka
df_mel_pop = dfpop[dfpop.state == 'Melaka']
df_mel_pop = df_mel_pop.at[df_mel_pop.index[0],'pop']
df_mel['2 Dos (%)'] = (df_mel['cum_full']/df_mel_pop)*100
#Negeri Sembilan
df_neg_pop = dfpop[dfpop.state == 'Negeri Sembilan']
df_neg_pop = df_neg_pop.at[df_neg_pop.index[0],'pop']
df_neg['2 Dos (%)'] = (df_neg['cum_full']/df_neg_pop)*100
#Pahang
df_pah_pop = dfpop[dfpop.state == 'Pahang']
df_pah_pop = df_pah_pop.at[df_pah_pop.index[0],'pop']
df_pah['2 Dos (%)'] = (df_pah['cum_full']/df_pah_pop)*100
#Perak
df_prk_pop = dfpop[dfpop.state == 'Perak']
df_prk_pop = df_prk_pop.at[df_prk_pop.index[0],'pop']
df_prk['2 Dos (%)'] = (df_prk['cum_full']/df_prk_pop)*100
#Perlis
df_per_pop = dfpop[dfpop.state == 'Perlis']
df_per_pop = df_per_pop.at[df_per_pop.index[0],'pop']
df_per['2 Dos (%)'] = (df_per['cum_full']/df_per_pop)*100
#Penang
df_pen_pop = dfpop[dfpop.state == 'Pulau Pinang']
df_pen_pop = df_pen_pop.at[df_pen_pop.index[0],'pop']
df_pen['2 Dos (%)'] = (df_pen['cum_full']/df_pen_pop)*100
#Sabah
df_sab_pop = dfpop[dfpop.state == 'Sabah']
df_sab_pop = df_sab_pop.at[df_sab_pop.index[0],'pop']
df_sab['2 Dos (%)'] = (df_sab['cum_full']/df_sab_pop)*100
#Sarawak
df_sar_pop = dfpop[dfpop.state == 'Sarawak']
df_sar_pop = df_sar_pop.at[df_sar_pop.index[0],'pop']
df_sar['2 Dos (%)'] = (df_sar['cum_full']/df_sar_pop)*100
#Selangor
df_sel_pop = dfpop[dfpop.state == 'Selangor']
df_sel_pop = df_sel_pop.at[df_sel_pop.index[0],'pop']
df_sel['2 Dos (%)'] = (df_sel['cum_full']/df_sel_pop)*100
#Terengganu
df_ter_pop = dfpop[dfpop.state == 'Terengganu']
df_ter_pop = df_ter_pop.at[df_ter_pop.index[0],'pop']
df_ter['2 Dos (%)'] = (df_ter['cum_full']/df_ter_pop)*100
#Kuala Lumpur
df_kul_pop = dfpop[dfpop.state == 'W.P. Kuala Lumpur']
df_kul_pop = df_kul_pop.at[df_kul_pop.index[0],'pop']
df_kul['2 Dos (%)'] = (df_kul['cum_full']/df_kul_pop)*100
#Labuan
df_lab_pop = dfpop[dfpop.state == 'W.P. Labuan']
df_lab_pop = df_lab_pop.at[df_lab_pop.index[0],'pop']
df_lab['2 Dos (%)'] = (df_lab['cum_full']/df_lab_pop)*100
#Putrajaya
df_put_pop = dfpop[dfpop.state == 'W.P. Putrajaya']
df_put_pop = df_put_pop.at[df_put_pop.index[0],'pop']
df_put['2 Dos (%)'] = (df_put['cum_full']/df_put_pop)*100
#Start creating the graph
fig = make_subplots(rows=4, cols=4, specs=[[{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}],
                                           [{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}],
                                           [{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}],
                                           [{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}]],
                    
subplot_titles=('<b>Johor</b>', '<b>Kedah</b>', '<b>Kelantan</b>', '<b>Melaka</b>',
                '<b>Negeri Sembilan</b>', '<b>Pahang</b>', '<b>Perak</b>', '<b>Perlis</b>',
                '<b>Pulau Pinang</b>', '<b>Sabah</b>', '<b>Sarawak</b>', '<b>Selangor</b>',
                '<b>Terengganu</b>', '<b>W.P. Kuala Lumpur</b>', '<b>W.P. Labuan</b>', '<b>W.P. Putrajaya</b>'))
#Graph 1
fig.add_trace(go.Scatter(x = df_joh['date'], y = df_joh['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=1, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_joh['date'], y = df_joh['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=1, col=1,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=1, col=1)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=1, col=1)
#Graph 2
fig.add_trace(go.Scatter(x = df_ked['date'], y = df_ked['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=1, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_ked['date'], y = df_ked['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=1, col=2,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=1, col=2)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=1, col=2)
#Graph 3
fig.add_trace(go.Scatter(x = df_kel['date'], y = df_kel['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=1, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_kel['date'], y = df_kel['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=1, col=3,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=1, col=3)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=1, col=3)
#Graph 4
fig.add_trace(go.Scatter(x = df_mel['date'], y = df_mel['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=1, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_mel['date'], y = df_mel['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=1, col=4,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=1, col=4)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=1, col=4)
#Graph 5
fig.add_trace(go.Scatter(x = df_neg['date'], y = df_neg['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=2, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_neg['date'], y = df_neg['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=2, col=1,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=2, col=1)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=2, col=1)
#Graph 6
fig.add_trace(go.Scatter(x = df_pah['date'], y = df_pah['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=2, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_pah['date'], y = df_pah['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=2, col=2,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=2, col=2)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=2, col=2)
#Graph 7
fig.add_trace(go.Scatter(x = df_prk['date'], y = df_prk['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=2, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_prk['date'], y = df_prk['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=2, col=3,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=2, col=3)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=2, col=3)
#Graph 8
fig.add_trace(go.Scatter(x = df_per['date'], y = df_per['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=2, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_per['date'], y = df_per['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=2, col=4,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=2, col=4)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=2, col=4)
#Graph 9
fig.add_trace(go.Scatter(x = df_pen['date'], y = df_pen['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=3, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_pen['date'], y = df_pen['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=3, col=1,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=3, col=1)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=3, col=1)
#Graph 10
fig.add_trace(go.Scatter(x = df_sab['date'], y = df_sab['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=3, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_sab['date'], y = df_sab['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=3, col=2,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=3, col=2)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=3, col=2)
#Graph 11
fig.add_trace(go.Scatter(x = df_sar['date'], y = df_sar['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=3, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_sar['date'], y = df_sar['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=3, col=3,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=3, col=3)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=3, col=3)
#Graph 12
fig.add_trace(go.Scatter(x = df_sel['date'], y = df_sel['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=3, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_sel['date'], y = df_sel['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=3, col=4,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=3, col=4)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=3, col=4)
#Graph 13
fig.add_trace(go.Scatter(x = df_ter['date'], y = df_ter['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=4, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_ter['date'], y = df_ter['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=4, col=1,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=4, col=1)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=4, col=1)
#Graph 14
fig.add_trace(go.Scatter(x = df_kul['date'], y = df_kul['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=4, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_kul['date'], y = df_kul['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=4, col=2,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=4, col=2)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=4, col=2)
#Graph 15
fig.add_trace(go.Scatter(x = df_lab['date'], y = df_lab['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=4, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_lab['date'], y = df_lab['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=4, col=3,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=4, col=3)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=4, col=3)
#Graph 16
fig.add_trace(go.Scatter(x = df_put['date'], y = df_put['2 Dos (%)'],name='2 Dos (%)',
                        line = dict(color='red', width=0.75)), row=4, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_put['date'], y = df_put['daily'],name='Total Daily Vax',
                        line = dict(color='blue', width=0.75)), row=4, col=4,secondary_y=True)
fig.add_shape(type="line", line_color="salmon", line_width=3, opacity=1, line_dash="dot",
              x0='2021-3-1', x1=df_date_end.at[df_date_end.index[0],'date'], xref="x", y0=90, y1=90, 
              yref="y", row=4, col=4)
fig.add_annotation(text='90% Vax. Pop.', x='2021-3-1', y=90, arrowhead=1, arrowsize=1, arrowwidth=1,
                   ax=50, ay=-10, showarrow=True, xanchor="left", yanchor="bottom", row=4, col=4)
#Adding title and adjusting the layout
fig.update_layout(height=1000,showlegend=False,
                  title_text="Covid19 Vaccination Against Vaccination Per Population At Each States",title_x=0.5)
fig.update_annotations(font=dict(family="Helvetica", size=10))
fig.update_layout(font=dict(family="Helvetica", size=12))
fig.update_xaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
fig.update_yaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
#Plotting the graph
fig.show()
In [42]:
#Retrieving dataset for Covid19 for all countries
dfworld = pd.read_csv('https://raw.githubusercontent.com/datasets/covid-19/main/data/time-series-19-covid-combined.csv')
dfworld['daily_cases'] = dfworld['Confirmed'].diff()
dfworld['daily_recover'] = dfworld['Recovered'].diff()
dfworld['daily_deaths'] = dfworld['Deaths'].diff()
In [43]:
dfworld2 = pd.read_csv('https://raw.githubusercontent.com/owid/covid-19-data/master/public/data/latest/owid-covid-latest.csv')
dfworld2 = dfworld2[dfworld2['continent'].notna()] 
dfworld2 = dfworld2[['location','total_cases','total_deaths','people_vaccinated',
                     'population','population_density','gdp_per_capita']]
dfworld2['Cases (%)'] = (dfworld2['total_cases']/dfworld2['population'])*100
dfworld2['Deaths (%)'] = (dfworld2['total_deaths']/dfworld2['total_cases'])*100
dfworld2['Vaccination (%)'] = (dfworld2['people_vaccinated']/dfworld2['population'])*100

dfworld2.rename(columns={'location':'Country','total_cases':'Total Cases','total_deaths':'Total Deaths',
                         'people_vaccinated':'People Vaccinated','population':'Population',
                         'population_density':'Population Density','gdp_per_capita':'GDP Per Kapita'},inplace=True)
In [44]:
df_asean = dfworld2.loc[dfworld2['Country'].isin(['Malaysia','Singapore','Thailand','Indonesia',
                                              'Philippines','Cambodia','Laos','Vietnam',
                                              'Myanmar','Brunei'])]
df_asean = df_asean.sort_values('Total Cases',ascending=False)
def highlight_max(s):
    '''
    highlight the maximum in a Series Salmon.
    '''
    is_max = s == s.max()
    return ['background-color: salmon' if v else '' for v in is_max]

df_asean.style.set_caption("Overview Of Covid19 Cases In ASEAN Countries").set_table_styles([{
    'selector': 'caption',
    'props': [
        ('color', 'black'),
        ('font-size', '26px'),
        ("text-align", "center"),
        ('text-decoration', 'underline'),
        ('font-family','Arial'),
        ('text-shadow', '2px 2px 5px grey')
    ]},(dict
        (selector='th',props=[('text-align',
                               'left')]))]).format(
    {'Total Cases':'{:,.0f}','Total Deaths':'{:,.0f}','People Vaccinated':'{:,.0f}','Population':'{:,.0f}',
     'Population Density':'{:,.1f}','GDP Per Kapita':'{:,.1f}','Cases (%)':'{:,.1f}','Deaths (%)':'{:,.1f}',
     'Vaccination (%)':'{:,.1f}'}).set_properties(subset=['Country'],**{'text-align': 'left'}).hide_index().apply(
    highlight_max,subset=['Total Cases','Total Deaths','People Vaccinated','Population','Population Density',
                          'GDP Per Kapita','Cases (%)','Deaths (%)','Vaccination (%)'])
Out[44]:
Overview Of Covid19 Cases In ASEAN Countries
Country Total Cases Total Deaths People Vaccinated Population Population Density GDP Per Kapita Cases (%) Deaths (%) Vaccination (%)
Vietnam 8,089,761 41,949 79,696,647 98,168,829 308.1 6,171.9 8.2 0.5 81.2
Indonesia 5,967,182 153,892 194,785,493 276,361,788 145.7 11,188.7 2.2 2.6 70.5
Malaysia 4,010,952 34,463 27,430,408 32,776,195 96.3 26,808.2 12.2 0.9 83.7
Philippines 3,674,694 58,276 69,535,753 111,046,910 351.9 7,599.2 3.3 1.6 62.6
Thailand 3,398,792 24,417 54,880,065 69,950,844 135.1 16,277.7 4.9 0.7 78.5
Singapore 1,022,555 1,208 5,003,208 5,453,600 7,915.7 85,535.4 18.8 0.1 91.7
Myanmar 609,288 19,425 25,654,190 54,806,014 81.7 5,591.6 1.1 3.2 46.8
Laos 154,094 649 5,452,875 7,379,358 29.7 6,397.4 2.1 0.4 73.9
Cambodia 135,085 3,052 14,788,268 16,946,446 90.7 3,645.1 0.8 2.3 87.3
Brunei 126,109 193 407,876 441,532 81.3 71,809.3 28.6 0.2 92.4
In [45]:
#Selecting datasets for ASEAN Countries
#Malaysia
dfworld.rename(columns={'Country/Region':'Country'},inplace=True)
df_mas = dfworld[dfworld.Country == 'Malaysia']
df_mas = df_mas.reset_index(drop=True)
df_mas = df_mas.drop([0])
#Indonesia
df_ind = dfworld[dfworld.Country == 'Indonesia']
df_ind = df_ind.reset_index(drop=True)
df_ind = df_ind.drop([0])
#Philippines
df_phi = dfworld[dfworld.Country == 'Philippines']
df_phi = df_phi.reset_index(drop=True)
df_phi = df_phi.drop([0])
#Burma
df_bur = dfworld[dfworld.Country == 'Burma']
df_bur = df_bur.reset_index(drop=True)
df_bur = df_bur.drop([0])
#Singapore
df_sin = dfworld[dfworld.Country == 'Singapore']
df_sin = df_sin.reset_index(drop=True)
df_sin = df_sin.drop([0])
#Thailand
df_tha = dfworld[dfworld.Country == 'Thailand']
df_tha = df_tha.reset_index(drop=True)
df_tha = df_tha.drop([0])
#Vietnam
df_vie = dfworld[dfworld.Country == 'Vietnam']
df_vie = df_vie.reset_index(drop=True)
df_vie = df_vie.drop([0])
#Cambodia
df_cam = dfworld[dfworld.Country == 'Cambodia']
df_cam = df_cam.reset_index(drop=True)
df_cam = df_cam.drop([0])
#Brunei
df_bru = dfworld[dfworld.Country == 'Brunei']
df_bru = df_bru.reset_index(drop=True)
df_bru = df_bru.drop([0])
#Laos
df_lao = dfworld[dfworld.Country == 'Laos']
df_lao = df_lao.reset_index(drop=True)
df_lao = df_lao.drop([0])
In [46]:
#Creating the ASEAN Covid19 Cases Graphs
fig = make_subplots(rows=2, cols=5, specs=[[{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}, {'secondary_y': True}],
                                           [{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}, {'secondary_y': True}]],
                    
subplot_titles=('<b>Malaysia</b>', '<b>Indonesia</b>', '<b>Philippines</b>', '<b>Burma</b>', '<b>Singapore</b>',
                '<b>Thailand</b>', '<b>Vietnam</b>', '<b>Cambodia</b>', '<b>Brunei</b>', '<b>Laos</b>'))
#Row 1
#Graph 1
fig.add_trace(go.Scatter(x = df_mas['Date'], y = df_mas['Confirmed'],name='Total Cases',
                        line = dict(color='red', width=2)), row=1, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_mas['Date'], y = df_mas['daily_cases'],name='Daily Cases',
                        line = dict(color='blue', width=0.75)), row=1, col=1,secondary_y=True)
#Graph 2
fig.add_trace(go.Scatter(x = df_ind['Date'], y = df_ind['Confirmed'],name='Total Cases',
                        line = dict(color='red', width=2)), row=1, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_ind['Date'], y = df_ind['daily_cases'],name='Daily Cases',
                        line = dict(color='blue', width=0.75)), row=1, col=2,secondary_y=True)
#Graph 3
fig.add_trace(go.Scatter(x = df_phi['Date'], y = df_phi['Confirmed'],name='Total Cases',
                        line = dict(color='red', width=2)), row=1, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_phi['Date'], y = df_phi['daily_cases'],name='Daily Cases',
                        line = dict(color='blue', width=0.75)), row=1, col=3,secondary_y=True)
#Graph 4
fig.add_trace(go.Scatter(x = df_bur['Date'], y = df_bur['Confirmed'],name='Total Cases',
                        line = dict(color='red', width=2)), row=1, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_bur['Date'], y = df_bur['daily_cases'],name='Daily Cases',
                        line = dict(color='blue', width=0.75)), row=1, col=4,secondary_y=True)
#Graph 5
fig.add_trace(go.Scatter(x = df_sin['Date'], y = df_sin['Confirmed'],name='Total Cases',
                        line = dict(color='red', width=2)), row=1, col=5,secondary_y=False)
fig.add_trace(go.Scatter(x = df_sin['Date'], y = df_sin['daily_cases'],name='Daily Cases',
                        line = dict(color='blue', width=0.75)), row=1, col=5,secondary_y=True)
#Row 2
#Graph 6
fig.add_trace(go.Scatter(x = df_tha['Date'], y = df_tha['Confirmed'],name='Total Cases',
                        line = dict(color='red', width=2)), row=2, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_tha['Date'], y = df_tha['daily_cases'],name='Daily Cases',
                        line = dict(color='blue', width=0.75)), row=2, col=1,secondary_y=True)
#Graph 7
fig.add_trace(go.Scatter(x = df_vie['Date'], y = df_vie['Confirmed'],name='Total Cases',
                        line = dict(color='red', width=2)), row=2, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_vie['Date'], y = df_vie['daily_cases'],name='Daily Cases',
                        line = dict(color='blue', width=0.75)), row=2, col=2,secondary_y=True)
#Graph 8
fig.add_trace(go.Scatter(x = df_cam['Date'], y = df_cam['Confirmed'],name='Total Cases',
                        line = dict(color='red', width=2)), row=2, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_cam['Date'], y = df_cam['daily_cases'],name='Daily Cases',
                        line = dict(color='blue', width=0.75)), row=2, col=3,secondary_y=True)
#Graph 9
fig.add_trace(go.Scatter(x = df_bru['Date'], y = df_bru['Confirmed'],name='Total Cases',
                        line = dict(color='red', width=2)), row=2, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_bru['Date'], y = df_bru['daily_cases'],name='Daily Cases',
                        line = dict(color='blue', width=0.75)), row=2, col=4,secondary_y=True)
#Graph 10
fig.add_trace(go.Scatter(x = df_lao['Date'], y = df_lao['Confirmed'],name='Total Cases',
                        line = dict(color='red', width=2)), row=2, col=5,secondary_y=False)
fig.add_trace(go.Scatter(x = df_lao['Date'], y = df_lao['daily_cases'],name='Daily Cases',
                        line = dict(color='blue', width=0.75)), row=2, col=5,secondary_y=True)

#Adding title and adjusting the layout
fig.update_layout(height=500,showlegend=False,title_text="Covid19 Total And Daily Cases At ASEAN Countries",title_x=0.5)
fig.update_annotations(font=dict(family="Helvetica", size=10))
fig.update_layout(font=dict(family="Helvetica", size=12))
fig.update_xaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
fig.update_yaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
#Plotting the graph
fig.show()
In [47]:
#Creating the ASEAN Covid19 Cases Graphs
fig = make_subplots(rows=2, cols=5, specs=[[{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}, {'secondary_y': True}],
                                           [{'secondary_y': True}, {'secondary_y': True},
                                            {'secondary_y': True}, {'secondary_y': True}, {'secondary_y': True}]],
                    
subplot_titles=('<b>Malaysia</b>', '<b>Indonesia</b>', '<b>Philippines</b>', '<b>Burma</b>', '<b>Singapore</b>',
                '<b>Thailand</b>', '<b>Vietnam</b>', '<b>Cambodia</b>', '<b>Brunei</b>', '<b>Laos</b>'))
#Row 1
#Graph 1
fig.add_trace(go.Scatter(x = df_mas['Date'], y = df_mas['Deaths'],name='Total Deaths',
                        line = dict(color='blue', width=2)), row=1, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_mas['Date'], y = df_mas['daily_deaths'],name=' Daily Deaths',
                        line = dict(color='red', width=0.75)), row=1, col=1,secondary_y=True)
#Graph 2
fig.add_trace(go.Scatter(x = df_ind['Date'], y = df_ind['Deaths'],name='Total Deaths',
                        line = dict(color='blue', width=2)), row=1, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_ind['Date'], y = df_ind['daily_deaths'],name=' Daily Deaths',
                        line = dict(color='red', width=0.75)), row=1, col=2,secondary_y=True)
#Graph 3
fig.add_trace(go.Scatter(x = df_phi['Date'], y = df_phi['Deaths'],name='Total Deaths',
                        line = dict(color='blue', width=2)), row=1, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_phi['Date'], y = df_phi['daily_deaths'],name=' Daily Deaths',
                        line = dict(color='red', width=0.75)), row=1, col=3,secondary_y=True)
#Graph 4
fig.add_trace(go.Scatter(x = df_bur['Date'], y = df_bur['Deaths'],name='Total Deaths',
                        line = dict(color='blue', width=2)), row=1, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_bur['Date'], y = df_bur['daily_deaths'],name=' Daily Deaths',
                        line = dict(color='red', width=0.75)), row=1, col=4,secondary_y=True)
#Graph 5
fig.add_trace(go.Scatter(x = df_sin['Date'], y = df_sin['Deaths'],name='Total Deaths',
                        line = dict(color='blue', width=2)), row=1, col=5,secondary_y=False)
fig.add_trace(go.Scatter(x = df_sin['Date'], y = df_sin['daily_deaths'],name=' Daily Deaths',
                        line = dict(color='red', width=0.75)), row=1, col=5,secondary_y=True)
#Row 2
#Graph 6
fig.add_trace(go.Scatter(x = df_tha['Date'], y = df_tha['Deaths'],name='Total Deaths',
                        line = dict(color='blue', width=2)), row=2, col=1,secondary_y=False)
fig.add_trace(go.Scatter(x = df_tha['Date'], y = df_tha['daily_deaths'],name=' Daily Deaths',
                        line = dict(color='red', width=0.75)), row=2, col=1,secondary_y=True)
#Graph 7
fig.add_trace(go.Scatter(x = df_vie['Date'], y = df_vie['Deaths'],name='Total Deaths',
                        line = dict(color='blue', width=2)), row=2, col=2,secondary_y=False)
fig.add_trace(go.Scatter(x = df_vie['Date'], y = df_vie['daily_deaths'],name=' Daily Deaths',
                        line = dict(color='red', width=0.75)), row=2, col=2,secondary_y=True)
#Graph 8
fig.add_trace(go.Scatter(x = df_cam['Date'], y = df_cam['Deaths'],name='Total Deaths',
                        line = dict(color='blue', width=2)), row=2, col=3,secondary_y=False)
fig.add_trace(go.Scatter(x = df_cam['Date'], y = df_cam['daily_deaths'],name=' Daily Deaths',
                        line = dict(color='red', width=0.75)), row=2, col=3,secondary_y=True)
#Graph 9
fig.add_trace(go.Scatter(x = df_bru['Date'], y = df_bru['Deaths'],name='Total Deaths',
                        line = dict(color='blue', width=2)), row=2, col=4,secondary_y=False)
fig.add_trace(go.Scatter(x = df_bru['Date'], y = df_bru['daily_deaths'],name=' Daily Deaths',
                        line = dict(color='red', width=0.75)), row=2, col=4,secondary_y=True)
#Graph 10
fig.add_trace(go.Scatter(x = df_lao['Date'], y = df_lao['Deaths'],name='Total Deaths',
                        line = dict(color='blue', width=2)), row=2, col=5,secondary_y=False)
fig.add_trace(go.Scatter(x = df_lao['Date'], y = df_lao['daily_deaths'],name=' Daily Deaths',
                        line = dict(color='red', width=0.75)), row=2, col=5,secondary_y=True)

#Adding title and adjusting the layout
fig.update_layout(height=500,showlegend=False,title_text="Covid19 Total Deaths And Daily Cases At ASEAN Countries",title_x=0.5)
fig.update_annotations(font=dict(family="Helvetica", size=10))
fig.update_layout(font=dict(family="Helvetica", size=12))
fig.update_xaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
fig.update_yaxes(showgrid=False, zeroline=False, showline=True, linewidth=2, linecolor='black')
#Plotting the graph
fig.show()
In [48]:
dfworld3 = dfworld2.sort_values('Total Cases',ascending=False).head(10)

def highlight_max(s):
    '''
    highlight the maximum in a Series Salmon.
    '''
    is_max = s == s.max()
    return ['background-color: salmon' if v else '' for v in is_max]

dfworld3.style.set_caption("Overview Of Top 10 Highest Covid19 Cases Worldwide").set_table_styles([{
    'selector': 'caption',
    'props': [
        ('color', 'black'),
        ('font-size', '26px'),
        ("text-align", "center"),
        ('text-decoration', 'underline'),
        ('font-family','Arial'),
        ('text-shadow', '2px 2px 5px grey')
    ]},(dict
        (selector='th',props=[('text-align',
                               'left')]))]).format(
    {'Total Cases':'{:,.0f}','Total Deaths':'{:,.0f}','People Vaccinated':'{:,.0f}','Population':'{:,.0f}',
     'Population Density':'{:,.1f}','GDP Per Kapita':'{:,.1f}','Cases (%)':'{:,.1f}','Deaths (%)':'{:,.1f}',
     'Vaccination (%)':'{:,.1f}'}).set_properties(subset=['Country'],**{'text-align': 'left'}).hide_index().apply(
    highlight_max,subset=['Total Cases','Total Deaths','People Vaccinated','Population','Population Density',
                          'GDP Per Kapita','Cases (%)','Deaths (%)','Vaccination (%)'])
Out[48]:
Overview Of Top 10 Highest Covid19 Cases Worldwide
Country Total Cases Total Deaths People Vaccinated Population Population Density GDP Per Kapita Cases (%) Deaths (%) Vaccination (%)
United States 79,780,432 972,658 255,021,542 332,915,074 35.6 54,225.4 24.0 1.2 76.6
India 43,010,971 516,543 972,808,865 1,393,409,033 450.4 6,426.7 3.1 1.2 69.8
Brazil 29,650,082 657,595 180,469,257 213,993,441 25.0 14,103.5 13.9 2.2 84.3
France 24,214,159 141,154 54,013,751 67,422,000 122.6 38,605.7 35.9 0.6 80.1
United Kingdom 20,380,278 163,826 52,747,246 68,207,114 272.9 39,753.2 29.9 0.8 77.3
Germany 18,810,035 126,933 63,621,325 83,900,471 237.0 45,229.2 22.4 0.7 75.8
Russia 17,356,036 357,634 79,211,156 145,912,022 8.8 24,766.0 11.9 2.1 54.3
Turkey 14,708,850 97,347 57,756,278 85,042,736 104.9 25,129.3 17.3 0.7 67.9
Italy 13,895,188 157,904 50,701,443 60,367,471 205.9 35,220.1 23.0 1.1 84.0
Spain 11,324,637 101,703 41,112,436 46,745,211 93.1 34,272.4 24.2 0.9 88.0
In [49]:
dfworld3 = dfworld2.sort_values('People Vaccinated',ascending=False).head(10)

def highlight_max(s):
    '''
    highlight the maximum in a Series Salmon.
    '''
    is_max = s == s.max()
    return ['background-color: salmon' if v else '' for v in is_max]

dfworld3.style.set_caption("Overview Of Top 10 Highest Covid19 People Vaccinated Worldwide").set_table_styles([{
    'selector': 'caption',
    'props': [
        ('color', 'black'),
        ('font-size', '26px'),
        ("text-align", "center"),
        ('text-decoration', 'underline'),
        ('font-family','Arial'),
        ('text-shadow', '2px 2px 5px grey')
    ]},(dict
        (selector='th',props=[('text-align',
                               'left')]))]).format(
    {'Total Cases':'{:,.0f}','Total Deaths':'{:,.0f}','People Vaccinated':'{:,.0f}','Population':'{:,.0f}',
     'Population Density':'{:,.1f}','GDP Per Kapita':'{:,.1f}','Cases (%)':'{:,.1f}','Deaths (%)':'{:,.1f}',
     'Vaccination (%)':'{:,.1f}'}).set_properties(subset=['Country'],**{'text-align': 'left'}).hide_index().apply(
    highlight_max,subset=['Total Cases','Total Deaths','People Vaccinated','Population','Population Density',
                          'GDP Per Kapita','Cases (%)','Deaths (%)','Vaccination (%)'])
Out[49]:
Overview Of Top 10 Highest Covid19 People Vaccinated Worldwide
Country Total Cases Total Deaths People Vaccinated Population Population Density GDP Per Kapita Cases (%) Deaths (%) Vaccination (%)
China 132,662 4,638 1,272,537,000 1,444,216,102 147.7 15,308.7 0.0 3.5 88.1
India 43,010,971 516,543 972,808,865 1,393,409,033 450.4 6,426.7 3.1 1.2 69.8
United States 79,780,432 972,658 255,021,542 332,915,074 35.6 54,225.4 24.0 1.2 76.6
Indonesia 5,967,182 153,892 194,785,493 276,361,788 145.7 11,188.7 2.2 2.6 70.5
Brazil 29,650,082 657,595 180,469,257 213,993,441 25.0 14,103.5 13.9 2.2 84.3
Pakistan 1,522,419 30,333 128,074,138 225,199,929 255.6 5,034.7 0.7 2.0 56.9
Bangladesh 1,950,725 29,117 126,783,997 166,303,494 1,265.0 3,524.0 1.2 1.5 76.2
Japan 6,127,897 27,180 102,153,541 126,050,796 347.8 39,002.2 4.9 0.4 81.0
Mexico 5,634,829 322,092 85,531,580 130,262,220 66.4 17,336.5 4.3 5.7 65.7
Vietnam 8,089,761 41,949 79,696,647 98,168,829 308.1 6,171.9 8.2 0.5 81.2
In [50]:
dfworld3 = dfworld2.sort_values('Population',ascending=False).head(10)

def highlight_max(s):
    '''
    highlight the maximum in a Series Salmon.
    '''
    is_max = s == s.max()
    return ['background-color: salmon' if v else '' for v in is_max]

dfworld3.style.set_caption("Overview Of Top 10 Highest Population Countries Worldwide").set_table_styles([{
    'selector': 'caption',
    'props': [
        ('color', 'black'),
        ('font-size', '26px'),
        ("text-align", "center"),
        ('text-decoration', 'underline'),
        ('font-family','Arial'),
        ('text-shadow', '2px 2px 5px grey')
    ]},(dict
        (selector='th',props=[('text-align',
                               'left')]))]).format(
    {'Total Cases':'{:,.0f}','Total Deaths':'{:,.0f}','People Vaccinated':'{:,.0f}','Population':'{:,.0f}',
     'Population Density':'{:,.1f}','GDP Per Kapita':'{:,.1f}','Cases (%)':'{:,.1f}','Deaths (%)':'{:,.1f}',
     'Vaccination (%)':'{:,.1f}'}).set_properties(subset=['Country'],**{'text-align': 'left'}).hide_index().apply(
    highlight_max,subset=['Total Cases','Total Deaths','People Vaccinated','Population','Population Density',
                          'GDP Per Kapita','Cases (%)','Deaths (%)','Vaccination (%)'])
Out[50]:
Overview Of Top 10 Highest Population Countries Worldwide
Country Total Cases Total Deaths People Vaccinated Population Population Density GDP Per Kapita Cases (%) Deaths (%) Vaccination (%)
China 132,662 4,638 1,272,537,000 1,444,216,102 147.7 15,308.7 0.0 3.5 88.1
India 43,010,971 516,543 972,808,865 1,393,409,033 450.4 6,426.7 3.1 1.2 69.8
United States 79,780,432 972,658 255,021,542 332,915,074 35.6 54,225.4 24.0 1.2 76.6
Indonesia 5,967,182 153,892 194,785,493 276,361,788 145.7 11,188.7 2.2 2.6 70.5
Pakistan 1,522,419 30,333 128,074,138 225,199,929 255.6 5,034.7 0.7 2.0 56.9
Brazil 29,650,082 657,595 180,469,257 213,993,441 25.0 14,103.5 13.9 2.2 84.3
Nigeria 255,103 3,142 19,884,781 211,400,704 209.6 5,338.5 0.1 1.2 9.4
Bangladesh 1,950,725 29,117 126,783,997 166,303,494 1,265.0 3,524.0 1.2 1.5 76.2
Russia 17,356,036 357,634 79,211,156 145,912,022 8.8 24,766.0 11.9 2.1 54.3
Mexico 5,634,829 322,092 85,531,580 130,262,220 66.4 17,336.5 4.3 5.7 65.7

End Of Report